usse/funda-scraper/venv/lib/python3.10/site-packages/numpy/distutils/system_info.py

3173 lines
108 KiB
Python

#!/usr/bin/env python3
"""
This file defines a set of system_info classes for getting
information about various resources (libraries, library directories,
include directories, etc.) in the system. Usage:
info_dict = get_info(<name>)
where <name> is a string 'atlas','x11','fftw','lapack','blas',
'lapack_src', 'blas_src', etc. For a complete list of allowed names,
see the definition of get_info() function below.
Returned info_dict is a dictionary which is compatible with
distutils.setup keyword arguments. If info_dict == {}, then the
asked resource is not available (system_info could not find it).
Several *_info classes specify an environment variable to specify
the locations of software. When setting the corresponding environment
variable to 'None' then the software will be ignored, even when it
is available in system.
Global parameters:
system_info.search_static_first - search static libraries (.a)
in precedence to shared ones (.so, .sl) if enabled.
system_info.verbosity - output the results to stdout if enabled.
The file 'site.cfg' is looked for in
1) Directory of main setup.py file being run.
2) Home directory of user running the setup.py file as ~/.numpy-site.cfg
3) System wide directory (location of this file...)
The first one found is used to get system configuration options The
format is that used by ConfigParser (i.e., Windows .INI style). The
section ALL is not intended for general use.
Appropriate defaults are used if nothing is specified.
The order of finding the locations of resources is the following:
1. environment variable
2. section in site.cfg
3. DEFAULT section in site.cfg
4. System default search paths (see ``default_*`` variables below).
Only the first complete match is returned.
Currently, the following classes are available, along with their section names:
Numeric_info:Numeric
_numpy_info:Numeric
_pkg_config_info:None
accelerate_info:accelerate
agg2_info:agg2
amd_info:amd
atlas_3_10_blas_info:atlas
atlas_3_10_blas_threads_info:atlas
atlas_3_10_info:atlas
atlas_3_10_threads_info:atlas
atlas_blas_info:atlas
atlas_blas_threads_info:atlas
atlas_info:atlas
atlas_threads_info:atlas
blas64__opt_info:ALL # usage recommended (general ILP64 BLAS, 64_ symbol suffix)
blas_ilp64_opt_info:ALL # usage recommended (general ILP64 BLAS)
blas_ilp64_plain_opt_info:ALL # usage recommended (general ILP64 BLAS, no symbol suffix)
blas_info:blas
blas_mkl_info:mkl
blas_opt_info:ALL # usage recommended
blas_src_info:blas_src
blis_info:blis
boost_python_info:boost_python
dfftw_info:fftw
dfftw_threads_info:fftw
djbfft_info:djbfft
f2py_info:ALL
fft_opt_info:ALL
fftw2_info:fftw
fftw3_info:fftw3
fftw_info:fftw
fftw_threads_info:fftw
flame_info:flame
freetype2_info:freetype2
gdk_2_info:gdk_2
gdk_info:gdk
gdk_pixbuf_2_info:gdk_pixbuf_2
gdk_pixbuf_xlib_2_info:gdk_pixbuf_xlib_2
gdk_x11_2_info:gdk_x11_2
gtkp_2_info:gtkp_2
gtkp_x11_2_info:gtkp_x11_2
lapack64__opt_info:ALL # usage recommended (general ILP64 LAPACK, 64_ symbol suffix)
lapack_atlas_3_10_info:atlas
lapack_atlas_3_10_threads_info:atlas
lapack_atlas_info:atlas
lapack_atlas_threads_info:atlas
lapack_ilp64_opt_info:ALL # usage recommended (general ILP64 LAPACK)
lapack_ilp64_plain_opt_info:ALL # usage recommended (general ILP64 LAPACK, no symbol suffix)
lapack_info:lapack
lapack_mkl_info:mkl
lapack_opt_info:ALL # usage recommended
lapack_src_info:lapack_src
mkl_info:mkl
numarray_info:numarray
numerix_info:numerix
numpy_info:numpy
openblas64__info:openblas64_
openblas64__lapack_info:openblas64_
openblas_clapack_info:openblas
openblas_ilp64_info:openblas_ilp64
openblas_ilp64_lapack_info:openblas_ilp64
openblas_info:openblas
openblas_lapack_info:openblas
sfftw_info:fftw
sfftw_threads_info:fftw
system_info:ALL
umfpack_info:umfpack
wx_info:wx
x11_info:x11
xft_info:xft
Note that blas_opt_info and lapack_opt_info honor the NPY_BLAS_ORDER
and NPY_LAPACK_ORDER environment variables to determine the order in which
specific BLAS and LAPACK libraries are searched for.
This search (or autodetection) can be bypassed by defining the environment
variables NPY_BLAS_LIBS and NPY_LAPACK_LIBS, which should then contain the
exact linker flags to use (language will be set to F77). Building against
Netlib BLAS/LAPACK or stub files, in order to be able to switch BLAS and LAPACK
implementations at runtime. If using this to build NumPy itself, it is
recommended to also define NPY_CBLAS_LIBS (assuming your BLAS library has a
CBLAS interface) to enable CBLAS usage for matrix multiplication (unoptimized
otherwise).
Example:
----------
[DEFAULT]
# default section
library_dirs = /usr/lib:/usr/local/lib:/opt/lib
include_dirs = /usr/include:/usr/local/include:/opt/include
src_dirs = /usr/local/src:/opt/src
# search static libraries (.a) in preference to shared ones (.so)
search_static_first = 0
[fftw]
libraries = rfftw, fftw
[atlas]
library_dirs = /usr/lib/3dnow:/usr/lib/3dnow/atlas
# for overriding the names of the atlas libraries
libraries = lapack, f77blas, cblas, atlas
[x11]
library_dirs = /usr/X11R6/lib
include_dirs = /usr/X11R6/include
----------
Note that the ``libraries`` key is the default setting for libraries.
Authors:
Pearu Peterson <pearu@cens.ioc.ee>, February 2002
David M. Cooke <cookedm@physics.mcmaster.ca>, April 2002
Copyright 2002 Pearu Peterson all rights reserved,
Pearu Peterson <pearu@cens.ioc.ee>
Permission to use, modify, and distribute this software is given under the
terms of the NumPy (BSD style) license. See LICENSE.txt that came with
this distribution for specifics.
NO WARRANTY IS EXPRESSED OR IMPLIED. USE AT YOUR OWN RISK.
"""
import sys
import os
import re
import copy
import warnings
import subprocess
import textwrap
from glob import glob
from functools import reduce
from configparser import NoOptionError
from configparser import RawConfigParser as ConfigParser
# It seems that some people are importing ConfigParser from here so is
# good to keep its class name. Use of RawConfigParser is needed in
# order to be able to load path names with percent in them, like
# `feature%2Fcool` which is common on git flow branch names.
from distutils.errors import DistutilsError
from distutils.dist import Distribution
import sysconfig
from numpy.distutils import log
from distutils.util import get_platform
from numpy.distutils.exec_command import (
find_executable, filepath_from_subprocess_output,
)
from numpy.distutils.misc_util import (is_sequence, is_string,
get_shared_lib_extension)
from numpy.distutils.command.config import config as cmd_config
from numpy.distutils import customized_ccompiler as _customized_ccompiler
from numpy.distutils import _shell_utils
import distutils.ccompiler
import tempfile
import shutil
__all__ = ['system_info']
# Determine number of bits
import platform
_bits = {'32bit': 32, '64bit': 64}
platform_bits = _bits[platform.architecture()[0]]
global_compiler = None
def customized_ccompiler():
global global_compiler
if not global_compiler:
global_compiler = _customized_ccompiler()
return global_compiler
def _c_string_literal(s):
"""
Convert a python string into a literal suitable for inclusion into C code
"""
# only these three characters are forbidden in C strings
s = s.replace('\\', r'\\')
s = s.replace('"', r'\"')
s = s.replace('\n', r'\n')
return '"{}"'.format(s)
def libpaths(paths, bits):
"""Return a list of library paths valid on 32 or 64 bit systems.
Inputs:
paths : sequence
A sequence of strings (typically paths)
bits : int
An integer, the only valid values are 32 or 64. A ValueError exception
is raised otherwise.
Examples:
Consider a list of directories
>>> paths = ['/usr/X11R6/lib','/usr/X11/lib','/usr/lib']
For a 32-bit platform, this is already valid:
>>> np.distutils.system_info.libpaths(paths,32)
['/usr/X11R6/lib', '/usr/X11/lib', '/usr/lib']
On 64 bits, we prepend the '64' postfix
>>> np.distutils.system_info.libpaths(paths,64)
['/usr/X11R6/lib64', '/usr/X11R6/lib', '/usr/X11/lib64', '/usr/X11/lib',
'/usr/lib64', '/usr/lib']
"""
if bits not in (32, 64):
raise ValueError("Invalid bit size in libpaths: 32 or 64 only")
# Handle 32bit case
if bits == 32:
return paths
# Handle 64bit case
out = []
for p in paths:
out.extend([p + '64', p])
return out
if sys.platform == 'win32':
default_lib_dirs = ['C:\\',
os.path.join(sysconfig.get_config_var('exec_prefix'),
'libs')]
default_runtime_dirs = []
default_include_dirs = []
default_src_dirs = ['.']
default_x11_lib_dirs = []
default_x11_include_dirs = []
_include_dirs = [
'include',
'include/suitesparse',
]
_lib_dirs = [
'lib',
]
_include_dirs = [d.replace('/', os.sep) for d in _include_dirs]
_lib_dirs = [d.replace('/', os.sep) for d in _lib_dirs]
def add_system_root(library_root):
"""Add a package manager root to the include directories"""
global default_lib_dirs
global default_include_dirs
library_root = os.path.normpath(library_root)
default_lib_dirs.extend(
os.path.join(library_root, d) for d in _lib_dirs)
default_include_dirs.extend(
os.path.join(library_root, d) for d in _include_dirs)
# VCpkg is the de-facto package manager on windows for C/C++
# libraries. If it is on the PATH, then we append its paths here.
vcpkg = shutil.which('vcpkg')
if vcpkg:
vcpkg_dir = os.path.dirname(vcpkg)
if platform.architecture()[0] == '32bit':
specifier = 'x86'
else:
specifier = 'x64'
vcpkg_installed = os.path.join(vcpkg_dir, 'installed')
for vcpkg_root in [
os.path.join(vcpkg_installed, specifier + '-windows'),
os.path.join(vcpkg_installed, specifier + '-windows-static'),
]:
add_system_root(vcpkg_root)
# Conda is another popular package manager that provides libraries
conda = shutil.which('conda')
if conda:
conda_dir = os.path.dirname(conda)
add_system_root(os.path.join(conda_dir, '..', 'Library'))
add_system_root(os.path.join(conda_dir, 'Library'))
else:
default_lib_dirs = libpaths(['/usr/local/lib', '/opt/lib', '/usr/lib',
'/opt/local/lib', '/sw/lib'], platform_bits)
default_runtime_dirs = []
default_include_dirs = ['/usr/local/include',
'/opt/include',
# path of umfpack under macports
'/opt/local/include/ufsparse',
'/opt/local/include', '/sw/include',
'/usr/include/suitesparse']
default_src_dirs = ['.', '/usr/local/src', '/opt/src', '/sw/src']
default_x11_lib_dirs = libpaths(['/usr/X11R6/lib', '/usr/X11/lib',
'/usr/lib'], platform_bits)
default_x11_include_dirs = ['/usr/X11R6/include', '/usr/X11/include']
if os.path.exists('/usr/lib/X11'):
globbed_x11_dir = glob('/usr/lib/*/libX11.so')
if globbed_x11_dir:
x11_so_dir = os.path.split(globbed_x11_dir[0])[0]
default_x11_lib_dirs.extend([x11_so_dir, '/usr/lib/X11'])
default_x11_include_dirs.extend(['/usr/lib/X11/include',
'/usr/include/X11'])
with open(os.devnull, 'w') as tmp:
try:
p = subprocess.Popen(["gcc", "-print-multiarch"], stdout=subprocess.PIPE,
stderr=tmp)
except (OSError, DistutilsError):
# OSError if gcc is not installed, or SandboxViolation (DistutilsError
# subclass) if an old setuptools bug is triggered (see gh-3160).
pass
else:
triplet = str(p.communicate()[0].decode().strip())
if p.returncode == 0:
# gcc supports the "-print-multiarch" option
default_x11_lib_dirs += [os.path.join("/usr/lib/", triplet)]
default_lib_dirs += [os.path.join("/usr/lib/", triplet)]
if os.path.join(sys.prefix, 'lib') not in default_lib_dirs:
default_lib_dirs.insert(0, os.path.join(sys.prefix, 'lib'))
default_include_dirs.append(os.path.join(sys.prefix, 'include'))
default_src_dirs.append(os.path.join(sys.prefix, 'src'))
default_lib_dirs = [_m for _m in default_lib_dirs if os.path.isdir(_m)]
default_runtime_dirs = [_m for _m in default_runtime_dirs if os.path.isdir(_m)]
default_include_dirs = [_m for _m in default_include_dirs if os.path.isdir(_m)]
default_src_dirs = [_m for _m in default_src_dirs if os.path.isdir(_m)]
so_ext = get_shared_lib_extension()
def get_standard_file(fname):
"""Returns a list of files named 'fname' from
1) System-wide directory (directory-location of this module)
2) Users HOME directory (os.environ['HOME'])
3) Local directory
"""
# System-wide file
filenames = []
try:
f = __file__
except NameError:
f = sys.argv[0]
sysfile = os.path.join(os.path.split(os.path.abspath(f))[0],
fname)
if os.path.isfile(sysfile):
filenames.append(sysfile)
# Home directory
# And look for the user config file
try:
f = os.path.expanduser('~')
except KeyError:
pass
else:
user_file = os.path.join(f, fname)
if os.path.isfile(user_file):
filenames.append(user_file)
# Local file
if os.path.isfile(fname):
filenames.append(os.path.abspath(fname))
return filenames
def _parse_env_order(base_order, env):
""" Parse an environment variable `env` by splitting with "," and only returning elements from `base_order`
This method will sequence the environment variable and check for their
individual elements in `base_order`.
The items in the environment variable may be negated via '^item' or '!itema,itemb'.
It must start with ^/! to negate all options.
Raises
------
ValueError: for mixed negated and non-negated orders or multiple negated orders
Parameters
----------
base_order : list of str
the base list of orders
env : str
the environment variable to be parsed, if none is found, `base_order` is returned
Returns
-------
allow_order : list of str
allowed orders in lower-case
unknown_order : list of str
for values not overlapping with `base_order`
"""
order_str = os.environ.get(env, None)
# ensure all base-orders are lower-case (for easier comparison)
base_order = [order.lower() for order in base_order]
if order_str is None:
return base_order, []
neg = order_str.startswith('^') or order_str.startswith('!')
# Check format
order_str_l = list(order_str)
sum_neg = order_str_l.count('^') + order_str_l.count('!')
if neg:
if sum_neg > 1:
raise ValueError(f"Environment variable '{env}' may only contain a single (prefixed) negation: {order_str}")
# remove prefix
order_str = order_str[1:]
elif sum_neg > 0:
raise ValueError(f"Environment variable '{env}' may not mix negated an non-negated items: {order_str}")
# Split and lower case
orders = order_str.lower().split(',')
# to inform callee about non-overlapping elements
unknown_order = []
# if negated, we have to remove from the order
if neg:
allow_order = base_order.copy()
for order in orders:
if not order:
continue
if order not in base_order:
unknown_order.append(order)
continue
if order in allow_order:
allow_order.remove(order)
else:
allow_order = []
for order in orders:
if not order:
continue
if order not in base_order:
unknown_order.append(order)
continue
if order not in allow_order:
allow_order.append(order)
return allow_order, unknown_order
def get_info(name, notfound_action=0):
"""
notfound_action:
0 - do nothing
1 - display warning message
2 - raise error
"""
cl = {'armpl': armpl_info,
'blas_armpl': blas_armpl_info,
'lapack_armpl': lapack_armpl_info,
'fftw3_armpl': fftw3_armpl_info,
'atlas': atlas_info, # use lapack_opt or blas_opt instead
'atlas_threads': atlas_threads_info, # ditto
'atlas_blas': atlas_blas_info,
'atlas_blas_threads': atlas_blas_threads_info,
'lapack_atlas': lapack_atlas_info, # use lapack_opt instead
'lapack_atlas_threads': lapack_atlas_threads_info, # ditto
'atlas_3_10': atlas_3_10_info, # use lapack_opt or blas_opt instead
'atlas_3_10_threads': atlas_3_10_threads_info, # ditto
'atlas_3_10_blas': atlas_3_10_blas_info,
'atlas_3_10_blas_threads': atlas_3_10_blas_threads_info,
'lapack_atlas_3_10': lapack_atlas_3_10_info, # use lapack_opt instead
'lapack_atlas_3_10_threads': lapack_atlas_3_10_threads_info, # ditto
'flame': flame_info, # use lapack_opt instead
'mkl': mkl_info,
# openblas which may or may not have embedded lapack
'openblas': openblas_info, # use blas_opt instead
# openblas with embedded lapack
'openblas_lapack': openblas_lapack_info, # use blas_opt instead
'openblas_clapack': openblas_clapack_info, # use blas_opt instead
'blis': blis_info, # use blas_opt instead
'lapack_mkl': lapack_mkl_info, # use lapack_opt instead
'blas_mkl': blas_mkl_info, # use blas_opt instead
'accelerate': accelerate_info, # use blas_opt instead
'openblas64_': openblas64__info,
'openblas64__lapack': openblas64__lapack_info,
'openblas_ilp64': openblas_ilp64_info,
'openblas_ilp64_lapack': openblas_ilp64_lapack_info,
'x11': x11_info,
'fft_opt': fft_opt_info,
'fftw': fftw_info,
'fftw2': fftw2_info,
'fftw3': fftw3_info,
'dfftw': dfftw_info,
'sfftw': sfftw_info,
'fftw_threads': fftw_threads_info,
'dfftw_threads': dfftw_threads_info,
'sfftw_threads': sfftw_threads_info,
'djbfft': djbfft_info,
'blas': blas_info, # use blas_opt instead
'lapack': lapack_info, # use lapack_opt instead
'lapack_src': lapack_src_info,
'blas_src': blas_src_info,
'numpy': numpy_info,
'f2py': f2py_info,
'Numeric': Numeric_info,
'numeric': Numeric_info,
'numarray': numarray_info,
'numerix': numerix_info,
'lapack_opt': lapack_opt_info,
'lapack_ilp64_opt': lapack_ilp64_opt_info,
'lapack_ilp64_plain_opt': lapack_ilp64_plain_opt_info,
'lapack64__opt': lapack64__opt_info,
'blas_opt': blas_opt_info,
'blas_ilp64_opt': blas_ilp64_opt_info,
'blas_ilp64_plain_opt': blas_ilp64_plain_opt_info,
'blas64__opt': blas64__opt_info,
'boost_python': boost_python_info,
'agg2': agg2_info,
'wx': wx_info,
'gdk_pixbuf_xlib_2': gdk_pixbuf_xlib_2_info,
'gdk-pixbuf-xlib-2.0': gdk_pixbuf_xlib_2_info,
'gdk_pixbuf_2': gdk_pixbuf_2_info,
'gdk-pixbuf-2.0': gdk_pixbuf_2_info,
'gdk': gdk_info,
'gdk_2': gdk_2_info,
'gdk-2.0': gdk_2_info,
'gdk_x11_2': gdk_x11_2_info,
'gdk-x11-2.0': gdk_x11_2_info,
'gtkp_x11_2': gtkp_x11_2_info,
'gtk+-x11-2.0': gtkp_x11_2_info,
'gtkp_2': gtkp_2_info,
'gtk+-2.0': gtkp_2_info,
'xft': xft_info,
'freetype2': freetype2_info,
'umfpack': umfpack_info,
'amd': amd_info,
}.get(name.lower(), system_info)
return cl().get_info(notfound_action)
class NotFoundError(DistutilsError):
"""Some third-party program or library is not found."""
class AliasedOptionError(DistutilsError):
"""
Aliases entries in config files should not be existing.
In section '{section}' we found multiple appearances of options {options}."""
class AtlasNotFoundError(NotFoundError):
"""
Atlas (http://github.com/math-atlas/math-atlas) libraries not found.
Directories to search for the libraries can be specified in the
numpy/distutils/site.cfg file (section [atlas]) or by setting
the ATLAS environment variable."""
class FlameNotFoundError(NotFoundError):
"""
FLAME (http://www.cs.utexas.edu/~flame/web/) libraries not found.
Directories to search for the libraries can be specified in the
numpy/distutils/site.cfg file (section [flame])."""
class LapackNotFoundError(NotFoundError):
"""
Lapack (http://www.netlib.org/lapack/) libraries not found.
Directories to search for the libraries can be specified in the
numpy/distutils/site.cfg file (section [lapack]) or by setting
the LAPACK environment variable."""
class LapackSrcNotFoundError(LapackNotFoundError):
"""
Lapack (http://www.netlib.org/lapack/) sources not found.
Directories to search for the sources can be specified in the
numpy/distutils/site.cfg file (section [lapack_src]) or by setting
the LAPACK_SRC environment variable."""
class LapackILP64NotFoundError(NotFoundError):
"""
64-bit Lapack libraries not found.
Known libraries in numpy/distutils/site.cfg file are:
openblas64_, openblas_ilp64
"""
class BlasOptNotFoundError(NotFoundError):
"""
Optimized (vendor) Blas libraries are not found.
Falls back to netlib Blas library which has worse performance.
A better performance should be easily gained by switching
Blas library."""
class BlasNotFoundError(NotFoundError):
"""
Blas (http://www.netlib.org/blas/) libraries not found.
Directories to search for the libraries can be specified in the
numpy/distutils/site.cfg file (section [blas]) or by setting
the BLAS environment variable."""
class BlasILP64NotFoundError(NotFoundError):
"""
64-bit Blas libraries not found.
Known libraries in numpy/distutils/site.cfg file are:
openblas64_, openblas_ilp64
"""
class BlasSrcNotFoundError(BlasNotFoundError):
"""
Blas (http://www.netlib.org/blas/) sources not found.
Directories to search for the sources can be specified in the
numpy/distutils/site.cfg file (section [blas_src]) or by setting
the BLAS_SRC environment variable."""
class FFTWNotFoundError(NotFoundError):
"""
FFTW (http://www.fftw.org/) libraries not found.
Directories to search for the libraries can be specified in the
numpy/distutils/site.cfg file (section [fftw]) or by setting
the FFTW environment variable."""
class DJBFFTNotFoundError(NotFoundError):
"""
DJBFFT (https://cr.yp.to/djbfft.html) libraries not found.
Directories to search for the libraries can be specified in the
numpy/distutils/site.cfg file (section [djbfft]) or by setting
the DJBFFT environment variable."""
class NumericNotFoundError(NotFoundError):
"""
Numeric (https://www.numpy.org/) module not found.
Get it from above location, install it, and retry setup.py."""
class X11NotFoundError(NotFoundError):
"""X11 libraries not found."""
class UmfpackNotFoundError(NotFoundError):
"""
UMFPACK sparse solver (https://www.cise.ufl.edu/research/sparse/umfpack/)
not found. Directories to search for the libraries can be specified in the
numpy/distutils/site.cfg file (section [umfpack]) or by setting
the UMFPACK environment variable."""
class system_info:
""" get_info() is the only public method. Don't use others.
"""
dir_env_var = None
# XXX: search_static_first is disabled by default, may disappear in
# future unless it is proved to be useful.
search_static_first = 0
# The base-class section name is a random word "ALL" and is not really
# intended for general use. It cannot be None nor can it be DEFAULT as
# these break the ConfigParser. See gh-15338
section = 'ALL'
saved_results = {}
notfounderror = NotFoundError
def __init__(self,
default_lib_dirs=default_lib_dirs,
default_include_dirs=default_include_dirs,
):
self.__class__.info = {}
self.local_prefixes = []
defaults = {'library_dirs': os.pathsep.join(default_lib_dirs),
'include_dirs': os.pathsep.join(default_include_dirs),
'runtime_library_dirs': os.pathsep.join(default_runtime_dirs),
'rpath': '',
'src_dirs': os.pathsep.join(default_src_dirs),
'search_static_first': str(self.search_static_first),
'extra_compile_args': '', 'extra_link_args': ''}
self.cp = ConfigParser(defaults)
self.files = []
self.files.extend(get_standard_file('.numpy-site.cfg'))
self.files.extend(get_standard_file('site.cfg'))
self.parse_config_files()
if self.section is not None:
self.search_static_first = self.cp.getboolean(
self.section, 'search_static_first')
assert isinstance(self.search_static_first, int)
def parse_config_files(self):
self.cp.read(self.files)
if not self.cp.has_section(self.section):
if self.section is not None:
self.cp.add_section(self.section)
def calc_libraries_info(self):
libs = self.get_libraries()
dirs = self.get_lib_dirs()
# The extensions use runtime_library_dirs
r_dirs = self.get_runtime_lib_dirs()
# Intrinsic distutils use rpath, we simply append both entries
# as though they were one entry
r_dirs.extend(self.get_runtime_lib_dirs(key='rpath'))
info = {}
for lib in libs:
i = self.check_libs(dirs, [lib])
if i is not None:
dict_append(info, **i)
else:
log.info('Library %s was not found. Ignoring' % (lib))
if r_dirs:
i = self.check_libs(r_dirs, [lib])
if i is not None:
# Swap library keywords found to runtime_library_dirs
# the libraries are insisting on the user having defined
# them using the library_dirs, and not necessarily by
# runtime_library_dirs
del i['libraries']
i['runtime_library_dirs'] = i.pop('library_dirs')
dict_append(info, **i)
else:
log.info('Runtime library %s was not found. Ignoring' % (lib))
return info
def set_info(self, **info):
if info:
lib_info = self.calc_libraries_info()
dict_append(info, **lib_info)
# Update extra information
extra_info = self.calc_extra_info()
dict_append(info, **extra_info)
self.saved_results[self.__class__.__name__] = info
def get_option_single(self, *options):
""" Ensure that only one of `options` are found in the section
Parameters
----------
*options : list of str
a list of options to be found in the section (``self.section``)
Returns
-------
str :
the option that is uniquely found in the section
Raises
------
AliasedOptionError :
in case more than one of the options are found
"""
found = [self.cp.has_option(self.section, opt) for opt in options]
if sum(found) == 1:
return options[found.index(True)]
elif sum(found) == 0:
# nothing is found anyways
return options[0]
# Else we have more than 1 key found
if AliasedOptionError.__doc__ is None:
raise AliasedOptionError()
raise AliasedOptionError(AliasedOptionError.__doc__.format(
section=self.section, options='[{}]'.format(', '.join(options))))
def has_info(self):
return self.__class__.__name__ in self.saved_results
def calc_extra_info(self):
""" Updates the information in the current information with
respect to these flags:
extra_compile_args
extra_link_args
"""
info = {}
for key in ['extra_compile_args', 'extra_link_args']:
# Get values
opt = self.cp.get(self.section, key)
opt = _shell_utils.NativeParser.split(opt)
if opt:
tmp = {key: opt}
dict_append(info, **tmp)
return info
def get_info(self, notfound_action=0):
""" Return a dictionary with items that are compatible
with numpy.distutils.setup keyword arguments.
"""
flag = 0
if not self.has_info():
flag = 1
log.info(self.__class__.__name__ + ':')
if hasattr(self, 'calc_info'):
self.calc_info()
if notfound_action:
if not self.has_info():
if notfound_action == 1:
warnings.warn(self.notfounderror.__doc__, stacklevel=2)
elif notfound_action == 2:
raise self.notfounderror(self.notfounderror.__doc__)
else:
raise ValueError(repr(notfound_action))
if not self.has_info():
log.info(' NOT AVAILABLE')
self.set_info()
else:
log.info(' FOUND:')
res = self.saved_results.get(self.__class__.__name__)
if log.get_threshold() <= log.INFO and flag:
for k, v in res.items():
v = str(v)
if k in ['sources', 'libraries'] and len(v) > 270:
v = v[:120] + '...\n...\n...' + v[-120:]
log.info(' %s = %s', k, v)
log.info('')
return copy.deepcopy(res)
def get_paths(self, section, key):
dirs = self.cp.get(section, key).split(os.pathsep)
env_var = self.dir_env_var
if env_var:
if is_sequence(env_var):
e0 = env_var[-1]
for e in env_var:
if e in os.environ:
e0 = e
break
if not env_var[0] == e0:
log.info('Setting %s=%s' % (env_var[0], e0))
env_var = e0
if env_var and env_var in os.environ:
d = os.environ[env_var]
if d == 'None':
log.info('Disabled %s: %s',
self.__class__.__name__, '(%s is None)'
% (env_var,))
return []
if os.path.isfile(d):
dirs = [os.path.dirname(d)] + dirs
l = getattr(self, '_lib_names', [])
if len(l) == 1:
b = os.path.basename(d)
b = os.path.splitext(b)[0]
if b[:3] == 'lib':
log.info('Replacing _lib_names[0]==%r with %r' \
% (self._lib_names[0], b[3:]))
self._lib_names[0] = b[3:]
else:
ds = d.split(os.pathsep)
ds2 = []
for d in ds:
if os.path.isdir(d):
ds2.append(d)
for dd in ['include', 'lib']:
d1 = os.path.join(d, dd)
if os.path.isdir(d1):
ds2.append(d1)
dirs = ds2 + dirs
default_dirs = self.cp.get(self.section, key).split(os.pathsep)
dirs.extend(default_dirs)
ret = []
for d in dirs:
if len(d) > 0 and not os.path.isdir(d):
warnings.warn('Specified path %s is invalid.' % d, stacklevel=2)
continue
if d not in ret:
ret.append(d)
log.debug('( %s = %s )', key, ':'.join(ret))
return ret
def get_lib_dirs(self, key='library_dirs'):
return self.get_paths(self.section, key)
def get_runtime_lib_dirs(self, key='runtime_library_dirs'):
path = self.get_paths(self.section, key)
if path == ['']:
path = []
return path
def get_include_dirs(self, key='include_dirs'):
return self.get_paths(self.section, key)
def get_src_dirs(self, key='src_dirs'):
return self.get_paths(self.section, key)
def get_libs(self, key, default):
try:
libs = self.cp.get(self.section, key)
except NoOptionError:
if not default:
return []
if is_string(default):
return [default]
return default
return [b for b in [a.strip() for a in libs.split(',')] if b]
def get_libraries(self, key='libraries'):
if hasattr(self, '_lib_names'):
return self.get_libs(key, default=self._lib_names)
else:
return self.get_libs(key, '')
def library_extensions(self):
c = customized_ccompiler()
static_exts = []
if c.compiler_type != 'msvc':
# MSVC doesn't understand binutils
static_exts.append('.a')
if sys.platform == 'win32':
static_exts.append('.lib') # .lib is used by MSVC and others
if self.search_static_first:
exts = static_exts + [so_ext]
else:
exts = [so_ext] + static_exts
if sys.platform == 'cygwin':
exts.append('.dll.a')
if sys.platform == 'darwin':
exts.append('.dylib')
return exts
def check_libs(self, lib_dirs, libs, opt_libs=[]):
"""If static or shared libraries are available then return
their info dictionary.
Checks for all libraries as shared libraries first, then
static (or vice versa if self.search_static_first is True).
"""
exts = self.library_extensions()
info = None
for ext in exts:
info = self._check_libs(lib_dirs, libs, opt_libs, [ext])
if info is not None:
break
if not info:
log.info(' libraries %s not found in %s', ','.join(libs),
lib_dirs)
return info
def check_libs2(self, lib_dirs, libs, opt_libs=[]):
"""If static or shared libraries are available then return
their info dictionary.
Checks each library for shared or static.
"""
exts = self.library_extensions()
info = self._check_libs(lib_dirs, libs, opt_libs, exts)
if not info:
log.info(' libraries %s not found in %s', ','.join(libs),
lib_dirs)
return info
def _find_lib(self, lib_dir, lib, exts):
assert is_string(lib_dir)
# under windows first try without 'lib' prefix
if sys.platform == 'win32':
lib_prefixes = ['', 'lib']
else:
lib_prefixes = ['lib']
# for each library name, see if we can find a file for it.
for ext in exts:
for prefix in lib_prefixes:
p = self.combine_paths(lib_dir, prefix + lib + ext)
if p:
break
if p:
assert len(p) == 1
# ??? splitext on p[0] would do this for cygwin
# doesn't seem correct
if ext == '.dll.a':
lib += '.dll'
if ext == '.lib':
lib = prefix + lib
return lib
return False
def _find_libs(self, lib_dirs, libs, exts):
# make sure we preserve the order of libs, as it can be important
found_dirs, found_libs = [], []
for lib in libs:
for lib_dir in lib_dirs:
found_lib = self._find_lib(lib_dir, lib, exts)
if found_lib:
found_libs.append(found_lib)
if lib_dir not in found_dirs:
found_dirs.append(lib_dir)
break
return found_dirs, found_libs
def _check_libs(self, lib_dirs, libs, opt_libs, exts):
"""Find mandatory and optional libs in expected paths.
Missing optional libraries are silently forgotten.
"""
if not is_sequence(lib_dirs):
lib_dirs = [lib_dirs]
# First, try to find the mandatory libraries
found_dirs, found_libs = self._find_libs(lib_dirs, libs, exts)
if len(found_libs) > 0 and len(found_libs) == len(libs):
# Now, check for optional libraries
opt_found_dirs, opt_found_libs = self._find_libs(lib_dirs, opt_libs, exts)
found_libs.extend(opt_found_libs)
for lib_dir in opt_found_dirs:
if lib_dir not in found_dirs:
found_dirs.append(lib_dir)
info = {'libraries': found_libs, 'library_dirs': found_dirs}
return info
else:
return None
def combine_paths(self, *args):
"""Return a list of existing paths composed by all combinations
of items from the arguments.
"""
return combine_paths(*args)
class fft_opt_info(system_info):
def calc_info(self):
info = {}
fftw_info = get_info('fftw3') or get_info('fftw2') or get_info('dfftw')
djbfft_info = get_info('djbfft')
if fftw_info:
dict_append(info, **fftw_info)
if djbfft_info:
dict_append(info, **djbfft_info)
self.set_info(**info)
return
class fftw_info(system_info):
#variables to override
section = 'fftw'
dir_env_var = 'FFTW'
notfounderror = FFTWNotFoundError
ver_info = [{'name':'fftw3',
'libs':['fftw3'],
'includes':['fftw3.h'],
'macros':[('SCIPY_FFTW3_H', None)]},
{'name':'fftw2',
'libs':['rfftw', 'fftw'],
'includes':['fftw.h', 'rfftw.h'],
'macros':[('SCIPY_FFTW_H', None)]}]
def calc_ver_info(self, ver_param):
"""Returns True on successful version detection, else False"""
lib_dirs = self.get_lib_dirs()
incl_dirs = self.get_include_dirs()
opt = self.get_option_single(self.section + '_libs', 'libraries')
libs = self.get_libs(opt, ver_param['libs'])
info = self.check_libs(lib_dirs, libs)
if info is not None:
flag = 0
for d in incl_dirs:
if len(self.combine_paths(d, ver_param['includes'])) \
== len(ver_param['includes']):
dict_append(info, include_dirs=[d])
flag = 1
break
if flag:
dict_append(info, define_macros=ver_param['macros'])
else:
info = None
if info is not None:
self.set_info(**info)
return True
else:
log.info(' %s not found' % (ver_param['name']))
return False
def calc_info(self):
for i in self.ver_info:
if self.calc_ver_info(i):
break
class fftw2_info(fftw_info):
#variables to override
section = 'fftw'
dir_env_var = 'FFTW'
notfounderror = FFTWNotFoundError
ver_info = [{'name':'fftw2',
'libs':['rfftw', 'fftw'],
'includes':['fftw.h', 'rfftw.h'],
'macros':[('SCIPY_FFTW_H', None)]}
]
class fftw3_info(fftw_info):
#variables to override
section = 'fftw3'
dir_env_var = 'FFTW3'
notfounderror = FFTWNotFoundError
ver_info = [{'name':'fftw3',
'libs':['fftw3'],
'includes':['fftw3.h'],
'macros':[('SCIPY_FFTW3_H', None)]},
]
class fftw3_armpl_info(fftw_info):
section = 'fftw3'
dir_env_var = 'ARMPL_DIR'
notfounderror = FFTWNotFoundError
ver_info = [{'name': 'fftw3',
'libs': ['armpl_lp64_mp'],
'includes': ['fftw3.h'],
'macros': [('SCIPY_FFTW3_H', None)]}]
class dfftw_info(fftw_info):
section = 'fftw'
dir_env_var = 'FFTW'
ver_info = [{'name':'dfftw',
'libs':['drfftw', 'dfftw'],
'includes':['dfftw.h', 'drfftw.h'],
'macros':[('SCIPY_DFFTW_H', None)]}]
class sfftw_info(fftw_info):
section = 'fftw'
dir_env_var = 'FFTW'
ver_info = [{'name':'sfftw',
'libs':['srfftw', 'sfftw'],
'includes':['sfftw.h', 'srfftw.h'],
'macros':[('SCIPY_SFFTW_H', None)]}]
class fftw_threads_info(fftw_info):
section = 'fftw'
dir_env_var = 'FFTW'
ver_info = [{'name':'fftw threads',
'libs':['rfftw_threads', 'fftw_threads'],
'includes':['fftw_threads.h', 'rfftw_threads.h'],
'macros':[('SCIPY_FFTW_THREADS_H', None)]}]
class dfftw_threads_info(fftw_info):
section = 'fftw'
dir_env_var = 'FFTW'
ver_info = [{'name':'dfftw threads',
'libs':['drfftw_threads', 'dfftw_threads'],
'includes':['dfftw_threads.h', 'drfftw_threads.h'],
'macros':[('SCIPY_DFFTW_THREADS_H', None)]}]
class sfftw_threads_info(fftw_info):
section = 'fftw'
dir_env_var = 'FFTW'
ver_info = [{'name':'sfftw threads',
'libs':['srfftw_threads', 'sfftw_threads'],
'includes':['sfftw_threads.h', 'srfftw_threads.h'],
'macros':[('SCIPY_SFFTW_THREADS_H', None)]}]
class djbfft_info(system_info):
section = 'djbfft'
dir_env_var = 'DJBFFT'
notfounderror = DJBFFTNotFoundError
def get_paths(self, section, key):
pre_dirs = system_info.get_paths(self, section, key)
dirs = []
for d in pre_dirs:
dirs.extend(self.combine_paths(d, ['djbfft']) + [d])
return [d for d in dirs if os.path.isdir(d)]
def calc_info(self):
lib_dirs = self.get_lib_dirs()
incl_dirs = self.get_include_dirs()
info = None
for d in lib_dirs:
p = self.combine_paths(d, ['djbfft.a'])
if p:
info = {'extra_objects': p}
break
p = self.combine_paths(d, ['libdjbfft.a', 'libdjbfft' + so_ext])
if p:
info = {'libraries': ['djbfft'], 'library_dirs': [d]}
break
if info is None:
return
for d in incl_dirs:
if len(self.combine_paths(d, ['fftc8.h', 'fftfreq.h'])) == 2:
dict_append(info, include_dirs=[d],
define_macros=[('SCIPY_DJBFFT_H', None)])
self.set_info(**info)
return
return
class mkl_info(system_info):
section = 'mkl'
dir_env_var = 'MKLROOT'
_lib_mkl = ['mkl_rt']
def get_mkl_rootdir(self):
mklroot = os.environ.get('MKLROOT', None)
if mklroot is not None:
return mklroot
paths = os.environ.get('LD_LIBRARY_PATH', '').split(os.pathsep)
ld_so_conf = '/etc/ld.so.conf'
if os.path.isfile(ld_so_conf):
with open(ld_so_conf, 'r') as f:
for d in f:
d = d.strip()
if d:
paths.append(d)
intel_mkl_dirs = []
for path in paths:
path_atoms = path.split(os.sep)
for m in path_atoms:
if m.startswith('mkl'):
d = os.sep.join(path_atoms[:path_atoms.index(m) + 2])
intel_mkl_dirs.append(d)
break
for d in paths:
dirs = glob(os.path.join(d, 'mkl', '*'))
dirs += glob(os.path.join(d, 'mkl*'))
for sub_dir in dirs:
if os.path.isdir(os.path.join(sub_dir, 'lib')):
return sub_dir
return None
def __init__(self):
mklroot = self.get_mkl_rootdir()
if mklroot is None:
system_info.__init__(self)
else:
from .cpuinfo import cpu
if cpu.is_Itanium():
plt = '64'
elif cpu.is_Intel() and cpu.is_64bit():
plt = 'intel64'
else:
plt = '32'
system_info.__init__(
self,
default_lib_dirs=[os.path.join(mklroot, 'lib', plt)],
default_include_dirs=[os.path.join(mklroot, 'include')])
def calc_info(self):
lib_dirs = self.get_lib_dirs()
incl_dirs = self.get_include_dirs()
opt = self.get_option_single('mkl_libs', 'libraries')
mkl_libs = self.get_libs(opt, self._lib_mkl)
info = self.check_libs2(lib_dirs, mkl_libs)
if info is None:
return
dict_append(info,
define_macros=[('SCIPY_MKL_H', None),
('HAVE_CBLAS', None)],
include_dirs=incl_dirs)
if sys.platform == 'win32':
pass # win32 has no pthread library
else:
dict_append(info, libraries=['pthread'])
self.set_info(**info)
class lapack_mkl_info(mkl_info):
pass
class blas_mkl_info(mkl_info):
pass
class armpl_info(system_info):
section = 'armpl'
dir_env_var = 'ARMPL_DIR'
_lib_armpl = ['armpl_lp64_mp']
def calc_info(self):
lib_dirs = self.get_lib_dirs()
incl_dirs = self.get_include_dirs()
armpl_libs = self.get_libs('armpl_libs', self._lib_armpl)
info = self.check_libs2(lib_dirs, armpl_libs)
if info is None:
return
dict_append(info,
define_macros=[('SCIPY_MKL_H', None),
('HAVE_CBLAS', None)],
include_dirs=incl_dirs)
self.set_info(**info)
class lapack_armpl_info(armpl_info):
pass
class blas_armpl_info(armpl_info):
pass
class atlas_info(system_info):
section = 'atlas'
dir_env_var = 'ATLAS'
_lib_names = ['f77blas', 'cblas']
if sys.platform[:7] == 'freebsd':
_lib_atlas = ['atlas_r']
_lib_lapack = ['alapack_r']
else:
_lib_atlas = ['atlas']
_lib_lapack = ['lapack']
notfounderror = AtlasNotFoundError
def get_paths(self, section, key):
pre_dirs = system_info.get_paths(self, section, key)
dirs = []
for d in pre_dirs:
dirs.extend(self.combine_paths(d, ['atlas*', 'ATLAS*',
'sse', '3dnow', 'sse2']) + [d])
return [d for d in dirs if os.path.isdir(d)]
def calc_info(self):
lib_dirs = self.get_lib_dirs()
info = {}
opt = self.get_option_single('atlas_libs', 'libraries')
atlas_libs = self.get_libs(opt, self._lib_names + self._lib_atlas)
lapack_libs = self.get_libs('lapack_libs', self._lib_lapack)
atlas = None
lapack = None
atlas_1 = None
for d in lib_dirs:
atlas = self.check_libs2(d, atlas_libs, [])
if atlas is not None:
lib_dirs2 = [d] + self.combine_paths(d, ['atlas*', 'ATLAS*'])
lapack = self.check_libs2(lib_dirs2, lapack_libs, [])
if lapack is not None:
break
if atlas:
atlas_1 = atlas
log.info(self.__class__)
if atlas is None:
atlas = atlas_1
if atlas is None:
return
include_dirs = self.get_include_dirs()
h = (self.combine_paths(lib_dirs + include_dirs, 'cblas.h') or [None])
h = h[0]
if h:
h = os.path.dirname(h)
dict_append(info, include_dirs=[h])
info['language'] = 'c'
if lapack is not None:
dict_append(info, **lapack)
dict_append(info, **atlas)
elif 'lapack_atlas' in atlas['libraries']:
dict_append(info, **atlas)
dict_append(info,
define_macros=[('ATLAS_WITH_LAPACK_ATLAS', None)])
self.set_info(**info)
return
else:
dict_append(info, **atlas)
dict_append(info, define_macros=[('ATLAS_WITHOUT_LAPACK', None)])
message = textwrap.dedent("""
*********************************************************************
Could not find lapack library within the ATLAS installation.
*********************************************************************
""")
warnings.warn(message, stacklevel=2)
self.set_info(**info)
return
# Check if lapack library is complete, only warn if it is not.
lapack_dir = lapack['library_dirs'][0]
lapack_name = lapack['libraries'][0]
lapack_lib = None
lib_prefixes = ['lib']
if sys.platform == 'win32':
lib_prefixes.append('')
for e in self.library_extensions():
for prefix in lib_prefixes:
fn = os.path.join(lapack_dir, prefix + lapack_name + e)
if os.path.exists(fn):
lapack_lib = fn
break
if lapack_lib:
break
if lapack_lib is not None:
sz = os.stat(lapack_lib)[6]
if sz <= 4000 * 1024:
message = textwrap.dedent("""
*********************************************************************
Lapack library (from ATLAS) is probably incomplete:
size of %s is %sk (expected >4000k)
Follow the instructions in the KNOWN PROBLEMS section of the file
numpy/INSTALL.txt.
*********************************************************************
""") % (lapack_lib, sz / 1024)
warnings.warn(message, stacklevel=2)
else:
info['language'] = 'f77'
atlas_version, atlas_extra_info = get_atlas_version(**atlas)
dict_append(info, **atlas_extra_info)
self.set_info(**info)
class atlas_blas_info(atlas_info):
_lib_names = ['f77blas', 'cblas']
def calc_info(self):
lib_dirs = self.get_lib_dirs()
info = {}
opt = self.get_option_single('atlas_libs', 'libraries')
atlas_libs = self.get_libs(opt, self._lib_names + self._lib_atlas)
atlas = self.check_libs2(lib_dirs, atlas_libs, [])
if atlas is None:
return
include_dirs = self.get_include_dirs()
h = (self.combine_paths(lib_dirs + include_dirs, 'cblas.h') or [None])
h = h[0]
if h:
h = os.path.dirname(h)
dict_append(info, include_dirs=[h])
info['language'] = 'c'
info['define_macros'] = [('HAVE_CBLAS', None)]
atlas_version, atlas_extra_info = get_atlas_version(**atlas)
dict_append(atlas, **atlas_extra_info)
dict_append(info, **atlas)
self.set_info(**info)
return
class atlas_threads_info(atlas_info):
dir_env_var = ['PTATLAS', 'ATLAS']
_lib_names = ['ptf77blas', 'ptcblas']
class atlas_blas_threads_info(atlas_blas_info):
dir_env_var = ['PTATLAS', 'ATLAS']
_lib_names = ['ptf77blas', 'ptcblas']
class lapack_atlas_info(atlas_info):
_lib_names = ['lapack_atlas'] + atlas_info._lib_names
class lapack_atlas_threads_info(atlas_threads_info):
_lib_names = ['lapack_atlas'] + atlas_threads_info._lib_names
class atlas_3_10_info(atlas_info):
_lib_names = ['satlas']
_lib_atlas = _lib_names
_lib_lapack = _lib_names
class atlas_3_10_blas_info(atlas_3_10_info):
_lib_names = ['satlas']
def calc_info(self):
lib_dirs = self.get_lib_dirs()
info = {}
opt = self.get_option_single('atlas_lib', 'libraries')
atlas_libs = self.get_libs(opt, self._lib_names)
atlas = self.check_libs2(lib_dirs, atlas_libs, [])
if atlas is None:
return
include_dirs = self.get_include_dirs()
h = (self.combine_paths(lib_dirs + include_dirs, 'cblas.h') or [None])
h = h[0]
if h:
h = os.path.dirname(h)
dict_append(info, include_dirs=[h])
info['language'] = 'c'
info['define_macros'] = [('HAVE_CBLAS', None)]
atlas_version, atlas_extra_info = get_atlas_version(**atlas)
dict_append(atlas, **atlas_extra_info)
dict_append(info, **atlas)
self.set_info(**info)
return
class atlas_3_10_threads_info(atlas_3_10_info):
dir_env_var = ['PTATLAS', 'ATLAS']
_lib_names = ['tatlas']
_lib_atlas = _lib_names
_lib_lapack = _lib_names
class atlas_3_10_blas_threads_info(atlas_3_10_blas_info):
dir_env_var = ['PTATLAS', 'ATLAS']
_lib_names = ['tatlas']
class lapack_atlas_3_10_info(atlas_3_10_info):
pass
class lapack_atlas_3_10_threads_info(atlas_3_10_threads_info):
pass
class lapack_info(system_info):
section = 'lapack'
dir_env_var = 'LAPACK'
_lib_names = ['lapack']
notfounderror = LapackNotFoundError
def calc_info(self):
lib_dirs = self.get_lib_dirs()
opt = self.get_option_single('lapack_libs', 'libraries')
lapack_libs = self.get_libs(opt, self._lib_names)
info = self.check_libs(lib_dirs, lapack_libs, [])
if info is None:
return
info['language'] = 'f77'
self.set_info(**info)
class lapack_src_info(system_info):
# LAPACK_SRC is deprecated, please do not use this!
# Build or install a BLAS library via your package manager or from
# source separately.
section = 'lapack_src'
dir_env_var = 'LAPACK_SRC'
notfounderror = LapackSrcNotFoundError
def get_paths(self, section, key):
pre_dirs = system_info.get_paths(self, section, key)
dirs = []
for d in pre_dirs:
dirs.extend([d] + self.combine_paths(d, ['LAPACK*/SRC', 'SRC']))
return [d for d in dirs if os.path.isdir(d)]
def calc_info(self):
src_dirs = self.get_src_dirs()
src_dir = ''
for d in src_dirs:
if os.path.isfile(os.path.join(d, 'dgesv.f')):
src_dir = d
break
if not src_dir:
#XXX: Get sources from netlib. May be ask first.
return
# The following is extracted from LAPACK-3.0/SRC/Makefile.
# Added missing names from lapack-lite-3.1.1/SRC/Makefile
# while keeping removed names for Lapack-3.0 compatibility.
allaux = '''
ilaenv ieeeck lsame lsamen xerbla
iparmq
''' # *.f
laux = '''
bdsdc bdsqr disna labad lacpy ladiv lae2 laebz laed0 laed1
laed2 laed3 laed4 laed5 laed6 laed7 laed8 laed9 laeda laev2
lagtf lagts lamch lamrg lanst lapy2 lapy3 larnv larrb larre
larrf lartg laruv las2 lascl lasd0 lasd1 lasd2 lasd3 lasd4
lasd5 lasd6 lasd7 lasd8 lasd9 lasda lasdq lasdt laset lasq1
lasq2 lasq3 lasq4 lasq5 lasq6 lasr lasrt lassq lasv2 pttrf
stebz stedc steqr sterf
larra larrc larrd larr larrk larrj larrr laneg laisnan isnan
lazq3 lazq4
''' # [s|d]*.f
lasrc = '''
gbbrd gbcon gbequ gbrfs gbsv gbsvx gbtf2 gbtrf gbtrs gebak
gebal gebd2 gebrd gecon geequ gees geesx geev geevx gegs gegv
gehd2 gehrd gelq2 gelqf gels gelsd gelss gelsx gelsy geql2
geqlf geqp3 geqpf geqr2 geqrf gerfs gerq2 gerqf gesc2 gesdd
gesv gesvd gesvx getc2 getf2 getrf getri getrs ggbak ggbal
gges ggesx ggev ggevx ggglm gghrd gglse ggqrf ggrqf ggsvd
ggsvp gtcon gtrfs gtsv gtsvx gttrf gttrs gtts2 hgeqz hsein
hseqr labrd lacon laein lags2 lagtm lahqr lahrd laic1 lals0
lalsa lalsd langb lange langt lanhs lansb lansp lansy lantb
lantp lantr lapll lapmt laqgb laqge laqp2 laqps laqsb laqsp
laqsy lar1v lar2v larf larfb larfg larft larfx largv larrv
lartv larz larzb larzt laswp lasyf latbs latdf latps latrd
latrs latrz latzm lauu2 lauum pbcon pbequ pbrfs pbstf pbsv
pbsvx pbtf2 pbtrf pbtrs pocon poequ porfs posv posvx potf2
potrf potri potrs ppcon ppequ pprfs ppsv ppsvx pptrf pptri
pptrs ptcon pteqr ptrfs ptsv ptsvx pttrs ptts2 spcon sprfs
spsv spsvx sptrf sptri sptrs stegr stein sycon syrfs sysv
sysvx sytf2 sytrf sytri sytrs tbcon tbrfs tbtrs tgevc tgex2
tgexc tgsen tgsja tgsna tgsy2 tgsyl tpcon tprfs tptri tptrs
trcon trevc trexc trrfs trsen trsna trsyl trti2 trtri trtrs
tzrqf tzrzf
lacn2 lahr2 stemr laqr0 laqr1 laqr2 laqr3 laqr4 laqr5
''' # [s|c|d|z]*.f
sd_lasrc = '''
laexc lag2 lagv2 laln2 lanv2 laqtr lasy2 opgtr opmtr org2l
org2r orgbr orghr orgl2 orglq orgql orgqr orgr2 orgrq orgtr
orm2l orm2r ormbr ormhr orml2 ormlq ormql ormqr ormr2 ormr3
ormrq ormrz ormtr rscl sbev sbevd sbevx sbgst sbgv sbgvd sbgvx
sbtrd spev spevd spevx spgst spgv spgvd spgvx sptrd stev stevd
stevr stevx syev syevd syevr syevx sygs2 sygst sygv sygvd
sygvx sytd2 sytrd
''' # [s|d]*.f
cz_lasrc = '''
bdsqr hbev hbevd hbevx hbgst hbgv hbgvd hbgvx hbtrd hecon heev
heevd heevr heevx hegs2 hegst hegv hegvd hegvx herfs hesv
hesvx hetd2 hetf2 hetrd hetrf hetri hetrs hpcon hpev hpevd
hpevx hpgst hpgv hpgvd hpgvx hprfs hpsv hpsvx hptrd hptrf
hptri hptrs lacgv lacp2 lacpy lacrm lacrt ladiv laed0 laed7
laed8 laesy laev2 lahef lanhb lanhe lanhp lanht laqhb laqhe
laqhp larcm larnv lartg lascl laset lasr lassq pttrf rot spmv
spr stedc steqr symv syr ung2l ung2r ungbr unghr ungl2 unglq
ungql ungqr ungr2 ungrq ungtr unm2l unm2r unmbr unmhr unml2
unmlq unmql unmqr unmr2 unmr3 unmrq unmrz unmtr upgtr upmtr
''' # [c|z]*.f
#######
sclaux = laux + ' econd ' # s*.f
dzlaux = laux + ' secnd ' # d*.f
slasrc = lasrc + sd_lasrc # s*.f
dlasrc = lasrc + sd_lasrc # d*.f
clasrc = lasrc + cz_lasrc + ' srot srscl ' # c*.f
zlasrc = lasrc + cz_lasrc + ' drot drscl ' # z*.f
oclasrc = ' icmax1 scsum1 ' # *.f
ozlasrc = ' izmax1 dzsum1 ' # *.f
sources = ['s%s.f' % f for f in (sclaux + slasrc).split()] \
+ ['d%s.f' % f for f in (dzlaux + dlasrc).split()] \
+ ['c%s.f' % f for f in (clasrc).split()] \
+ ['z%s.f' % f for f in (zlasrc).split()] \
+ ['%s.f' % f for f in (allaux + oclasrc + ozlasrc).split()]
sources = [os.path.join(src_dir, f) for f in sources]
# Lapack 3.1:
src_dir2 = os.path.join(src_dir, '..', 'INSTALL')
sources += [os.path.join(src_dir2, p + 'lamch.f') for p in 'sdcz']
# Lapack 3.2.1:
sources += [os.path.join(src_dir, p + 'larfp.f') for p in 'sdcz']
sources += [os.path.join(src_dir, 'ila' + p + 'lr.f') for p in 'sdcz']
sources += [os.path.join(src_dir, 'ila' + p + 'lc.f') for p in 'sdcz']
# Should we check here actual existence of source files?
# Yes, the file listing is different between 3.0 and 3.1
# versions.
sources = [f for f in sources if os.path.isfile(f)]
info = {'sources': sources, 'language': 'f77'}
self.set_info(**info)
atlas_version_c_text = r'''
/* This file is generated from numpy/distutils/system_info.py */
void ATL_buildinfo(void);
int main(void) {
ATL_buildinfo();
return 0;
}
'''
_cached_atlas_version = {}
def get_atlas_version(**config):
libraries = config.get('libraries', [])
library_dirs = config.get('library_dirs', [])
key = (tuple(libraries), tuple(library_dirs))
if key in _cached_atlas_version:
return _cached_atlas_version[key]
c = cmd_config(Distribution())
atlas_version = None
info = {}
try:
s, o = c.get_output(atlas_version_c_text,
libraries=libraries, library_dirs=library_dirs,
)
if s and re.search(r'undefined reference to `_gfortran', o, re.M):
s, o = c.get_output(atlas_version_c_text,
libraries=libraries + ['gfortran'],
library_dirs=library_dirs,
)
if not s:
warnings.warn(textwrap.dedent("""
*****************************************************
Linkage with ATLAS requires gfortran. Use
python setup.py config_fc --fcompiler=gnu95 ...
when building extension libraries that use ATLAS.
Make sure that -lgfortran is used for C++ extensions.
*****************************************************
"""), stacklevel=2)
dict_append(info, language='f90',
define_macros=[('ATLAS_REQUIRES_GFORTRAN', None)])
except Exception: # failed to get version from file -- maybe on Windows
# look at directory name
for o in library_dirs:
m = re.search(r'ATLAS_(?P<version>\d+[.]\d+[.]\d+)_', o)
if m:
atlas_version = m.group('version')
if atlas_version is not None:
break
# final choice --- look at ATLAS_VERSION environment
# variable
if atlas_version is None:
atlas_version = os.environ.get('ATLAS_VERSION', None)
if atlas_version:
dict_append(info, define_macros=[(
'ATLAS_INFO', _c_string_literal(atlas_version))
])
else:
dict_append(info, define_macros=[('NO_ATLAS_INFO', -1)])
return atlas_version or '?.?.?', info
if not s:
m = re.search(r'ATLAS version (?P<version>\d+[.]\d+[.]\d+)', o)
if m:
atlas_version = m.group('version')
if atlas_version is None:
if re.search(r'undefined symbol: ATL_buildinfo', o, re.M):
atlas_version = '3.2.1_pre3.3.6'
else:
log.info('Status: %d', s)
log.info('Output: %s', o)
elif atlas_version == '3.2.1_pre3.3.6':
dict_append(info, define_macros=[('NO_ATLAS_INFO', -2)])
else:
dict_append(info, define_macros=[(
'ATLAS_INFO', _c_string_literal(atlas_version))
])
result = _cached_atlas_version[key] = atlas_version, info
return result
class lapack_opt_info(system_info):
notfounderror = LapackNotFoundError
# List of all known LAPACK libraries, in the default order
lapack_order = ['armpl', 'mkl', 'openblas', 'flame',
'accelerate', 'atlas', 'lapack']
order_env_var_name = 'NPY_LAPACK_ORDER'
def _calc_info_armpl(self):
info = get_info('lapack_armpl')
if info:
self.set_info(**info)
return True
return False
def _calc_info_mkl(self):
info = get_info('lapack_mkl')
if info:
self.set_info(**info)
return True
return False
def _calc_info_openblas(self):
info = get_info('openblas_lapack')
if info:
self.set_info(**info)
return True
info = get_info('openblas_clapack')
if info:
self.set_info(**info)
return True
return False
def _calc_info_flame(self):
info = get_info('flame')
if info:
self.set_info(**info)
return True
return False
def _calc_info_atlas(self):
info = get_info('atlas_3_10_threads')
if not info:
info = get_info('atlas_3_10')
if not info:
info = get_info('atlas_threads')
if not info:
info = get_info('atlas')
if info:
# Figure out if ATLAS has lapack...
# If not we need the lapack library, but not BLAS!
l = info.get('define_macros', [])
if ('ATLAS_WITH_LAPACK_ATLAS', None) in l \
or ('ATLAS_WITHOUT_LAPACK', None) in l:
# Get LAPACK (with possible warnings)
# If not found we don't accept anything
# since we can't use ATLAS with LAPACK!
lapack_info = self._get_info_lapack()
if not lapack_info:
return False
dict_append(info, **lapack_info)
self.set_info(**info)
return True
return False
def _calc_info_accelerate(self):
info = get_info('accelerate')
if info:
self.set_info(**info)
return True
return False
def _get_info_blas(self):
# Default to get the optimized BLAS implementation
info = get_info('blas_opt')
if not info:
warnings.warn(BlasNotFoundError.__doc__ or '', stacklevel=3)
info_src = get_info('blas_src')
if not info_src:
warnings.warn(BlasSrcNotFoundError.__doc__ or '', stacklevel=3)
return {}
dict_append(info, libraries=[('fblas_src', info_src)])
return info
def _get_info_lapack(self):
info = get_info('lapack')
if not info:
warnings.warn(LapackNotFoundError.__doc__ or '', stacklevel=3)
info_src = get_info('lapack_src')
if not info_src:
warnings.warn(LapackSrcNotFoundError.__doc__ or '', stacklevel=3)
return {}
dict_append(info, libraries=[('flapack_src', info_src)])
return info
def _calc_info_lapack(self):
info = self._get_info_lapack()
if info:
info_blas = self._get_info_blas()
dict_append(info, **info_blas)
dict_append(info, define_macros=[('NO_ATLAS_INFO', 1)])
self.set_info(**info)
return True
return False
def _calc_info_from_envvar(self):
info = {}
info['language'] = 'f77'
info['libraries'] = []
info['include_dirs'] = []
info['define_macros'] = []
info['extra_link_args'] = os.environ['NPY_LAPACK_LIBS'].split()
self.set_info(**info)
return True
def _calc_info(self, name):
return getattr(self, '_calc_info_{}'.format(name))()
def calc_info(self):
lapack_order, unknown_order = _parse_env_order(self.lapack_order, self.order_env_var_name)
if len(unknown_order) > 0:
raise ValueError("lapack_opt_info user defined "
"LAPACK order has unacceptable "
"values: {}".format(unknown_order))
if 'NPY_LAPACK_LIBS' in os.environ:
# Bypass autodetection, set language to F77 and use env var linker
# flags directly
self._calc_info_from_envvar()
return
for lapack in lapack_order:
if self._calc_info(lapack):
return
if 'lapack' not in lapack_order:
# Since the user may request *not* to use any library, we still need
# to raise warnings to signal missing packages!
warnings.warn(LapackNotFoundError.__doc__ or '', stacklevel=2)
warnings.warn(LapackSrcNotFoundError.__doc__ or '', stacklevel=2)
class _ilp64_opt_info_mixin:
symbol_suffix = None
symbol_prefix = None
def _check_info(self, info):
macros = dict(info.get('define_macros', []))
prefix = macros.get('BLAS_SYMBOL_PREFIX', '')
suffix = macros.get('BLAS_SYMBOL_SUFFIX', '')
if self.symbol_prefix not in (None, prefix):
return False
if self.symbol_suffix not in (None, suffix):
return False
return bool(info)
class lapack_ilp64_opt_info(lapack_opt_info, _ilp64_opt_info_mixin):
notfounderror = LapackILP64NotFoundError
lapack_order = ['openblas64_', 'openblas_ilp64']
order_env_var_name = 'NPY_LAPACK_ILP64_ORDER'
def _calc_info(self, name):
info = get_info(name + '_lapack')
if self._check_info(info):
self.set_info(**info)
return True
return False
class lapack_ilp64_plain_opt_info(lapack_ilp64_opt_info):
# Same as lapack_ilp64_opt_info, but fix symbol names
symbol_prefix = ''
symbol_suffix = ''
class lapack64__opt_info(lapack_ilp64_opt_info):
symbol_prefix = ''
symbol_suffix = '64_'
class blas_opt_info(system_info):
notfounderror = BlasNotFoundError
# List of all known BLAS libraries, in the default order
blas_order = ['armpl', 'mkl', 'blis', 'openblas',
'accelerate', 'atlas', 'blas']
order_env_var_name = 'NPY_BLAS_ORDER'
def _calc_info_armpl(self):
info = get_info('blas_armpl')
if info:
self.set_info(**info)
return True
return False
def _calc_info_mkl(self):
info = get_info('blas_mkl')
if info:
self.set_info(**info)
return True
return False
def _calc_info_blis(self):
info = get_info('blis')
if info:
self.set_info(**info)
return True
return False
def _calc_info_openblas(self):
info = get_info('openblas')
if info:
self.set_info(**info)
return True
return False
def _calc_info_atlas(self):
info = get_info('atlas_3_10_blas_threads')
if not info:
info = get_info('atlas_3_10_blas')
if not info:
info = get_info('atlas_blas_threads')
if not info:
info = get_info('atlas_blas')
if info:
self.set_info(**info)
return True
return False
def _calc_info_accelerate(self):
info = get_info('accelerate')
if info:
self.set_info(**info)
return True
return False
def _calc_info_blas(self):
# Warn about a non-optimized BLAS library
warnings.warn(BlasOptNotFoundError.__doc__ or '', stacklevel=3)
info = {}
dict_append(info, define_macros=[('NO_ATLAS_INFO', 1)])
blas = get_info('blas')
if blas:
dict_append(info, **blas)
else:
# Not even BLAS was found!
warnings.warn(BlasNotFoundError.__doc__ or '', stacklevel=3)
blas_src = get_info('blas_src')
if not blas_src:
warnings.warn(BlasSrcNotFoundError.__doc__ or '', stacklevel=3)
return False
dict_append(info, libraries=[('fblas_src', blas_src)])
self.set_info(**info)
return True
def _calc_info_from_envvar(self):
info = {}
info['language'] = 'f77'
info['libraries'] = []
info['include_dirs'] = []
info['define_macros'] = []
info['extra_link_args'] = os.environ['NPY_BLAS_LIBS'].split()
if 'NPY_CBLAS_LIBS' in os.environ:
info['define_macros'].append(('HAVE_CBLAS', None))
info['extra_link_args'].extend(
os.environ['NPY_CBLAS_LIBS'].split())
self.set_info(**info)
return True
def _calc_info(self, name):
return getattr(self, '_calc_info_{}'.format(name))()
def calc_info(self):
blas_order, unknown_order = _parse_env_order(self.blas_order, self.order_env_var_name)
if len(unknown_order) > 0:
raise ValueError("blas_opt_info user defined BLAS order has unacceptable values: {}".format(unknown_order))
if 'NPY_BLAS_LIBS' in os.environ:
# Bypass autodetection, set language to F77 and use env var linker
# flags directly
self._calc_info_from_envvar()
return
for blas in blas_order:
if self._calc_info(blas):
return
if 'blas' not in blas_order:
# Since the user may request *not* to use any library, we still need
# to raise warnings to signal missing packages!
warnings.warn(BlasNotFoundError.__doc__ or '', stacklevel=2)
warnings.warn(BlasSrcNotFoundError.__doc__ or '', stacklevel=2)
class blas_ilp64_opt_info(blas_opt_info, _ilp64_opt_info_mixin):
notfounderror = BlasILP64NotFoundError
blas_order = ['openblas64_', 'openblas_ilp64']
order_env_var_name = 'NPY_BLAS_ILP64_ORDER'
def _calc_info(self, name):
info = get_info(name)
if self._check_info(info):
self.set_info(**info)
return True
return False
class blas_ilp64_plain_opt_info(blas_ilp64_opt_info):
symbol_prefix = ''
symbol_suffix = ''
class blas64__opt_info(blas_ilp64_opt_info):
symbol_prefix = ''
symbol_suffix = '64_'
class cblas_info(system_info):
section = 'cblas'
dir_env_var = 'CBLAS'
# No default as it's used only in blas_info
_lib_names = []
notfounderror = BlasNotFoundError
class blas_info(system_info):
section = 'blas'
dir_env_var = 'BLAS'
_lib_names = ['blas']
notfounderror = BlasNotFoundError
def calc_info(self):
lib_dirs = self.get_lib_dirs()
opt = self.get_option_single('blas_libs', 'libraries')
blas_libs = self.get_libs(opt, self._lib_names)
info = self.check_libs(lib_dirs, blas_libs, [])
if info is None:
return
else:
info['include_dirs'] = self.get_include_dirs()
if platform.system() == 'Windows':
# The check for windows is needed because get_cblas_libs uses the
# same compiler that was used to compile Python and msvc is
# often not installed when mingw is being used. This rough
# treatment is not desirable, but windows is tricky.
info['language'] = 'f77' # XXX: is it generally true?
# If cblas is given as an option, use those
cblas_info_obj = cblas_info()
cblas_opt = cblas_info_obj.get_option_single('cblas_libs', 'libraries')
cblas_libs = cblas_info_obj.get_libs(cblas_opt, None)
if cblas_libs:
info['libraries'] = cblas_libs + blas_libs
info['define_macros'] = [('HAVE_CBLAS', None)]
else:
lib = self.get_cblas_libs(info)
if lib is not None:
info['language'] = 'c'
info['libraries'] = lib
info['define_macros'] = [('HAVE_CBLAS', None)]
self.set_info(**info)
def get_cblas_libs(self, info):
""" Check whether we can link with CBLAS interface
This method will search through several combinations of libraries
to check whether CBLAS is present:
1. Libraries in ``info['libraries']``, as is
2. As 1. but also explicitly adding ``'cblas'`` as a library
3. As 1. but also explicitly adding ``'blas'`` as a library
4. Check only library ``'cblas'``
5. Check only library ``'blas'``
Parameters
----------
info : dict
system information dictionary for compilation and linking
Returns
-------
libraries : list of str or None
a list of libraries that enables the use of CBLAS interface.
Returns None if not found or a compilation error occurs.
Since 1.17 returns a list.
"""
# primitive cblas check by looking for the header and trying to link
# cblas or blas
c = customized_ccompiler()
tmpdir = tempfile.mkdtemp()
s = textwrap.dedent("""\
#include <cblas.h>
int main(int argc, const char *argv[])
{
double a[4] = {1,2,3,4};
double b[4] = {5,6,7,8};
return cblas_ddot(4, a, 1, b, 1) > 10;
}""")
src = os.path.join(tmpdir, 'source.c')
try:
with open(src, 'wt') as f:
f.write(s)
try:
# check we can compile (find headers)
obj = c.compile([src], output_dir=tmpdir,
include_dirs=self.get_include_dirs())
except (distutils.ccompiler.CompileError, distutils.ccompiler.LinkError):
return None
# check we can link (find library)
# some systems have separate cblas and blas libs.
for libs in [info['libraries'], ['cblas'] + info['libraries'],
['blas'] + info['libraries'], ['cblas'], ['blas']]:
try:
c.link_executable(obj, os.path.join(tmpdir, "a.out"),
libraries=libs,
library_dirs=info['library_dirs'],
extra_postargs=info.get('extra_link_args', []))
return libs
except distutils.ccompiler.LinkError:
pass
finally:
shutil.rmtree(tmpdir)
return None
class openblas_info(blas_info):
section = 'openblas'
dir_env_var = 'OPENBLAS'
_lib_names = ['openblas']
_require_symbols = []
notfounderror = BlasNotFoundError
@property
def symbol_prefix(self):
try:
return self.cp.get(self.section, 'symbol_prefix')
except NoOptionError:
return ''
@property
def symbol_suffix(self):
try:
return self.cp.get(self.section, 'symbol_suffix')
except NoOptionError:
return ''
def _calc_info(self):
c = customized_ccompiler()
lib_dirs = self.get_lib_dirs()
# Prefer to use libraries over openblas_libs
opt = self.get_option_single('openblas_libs', 'libraries')
openblas_libs = self.get_libs(opt, self._lib_names)
info = self.check_libs(lib_dirs, openblas_libs, [])
if c.compiler_type == "msvc" and info is None:
from numpy.distutils.fcompiler import new_fcompiler
f = new_fcompiler(c_compiler=c)
if f and f.compiler_type == 'gnu95':
# Try gfortran-compatible library files
info = self.check_msvc_gfortran_libs(lib_dirs, openblas_libs)
# Skip lapack check, we'd need build_ext to do it
skip_symbol_check = True
elif info:
skip_symbol_check = False
info['language'] = 'c'
if info is None:
return None
# Add extra info for OpenBLAS
extra_info = self.calc_extra_info()
dict_append(info, **extra_info)
if not (skip_symbol_check or self.check_symbols(info)):
return None
info['define_macros'] = [('HAVE_CBLAS', None)]
if self.symbol_prefix:
info['define_macros'] += [('BLAS_SYMBOL_PREFIX', self.symbol_prefix)]
if self.symbol_suffix:
info['define_macros'] += [('BLAS_SYMBOL_SUFFIX', self.symbol_suffix)]
return info
def calc_info(self):
info = self._calc_info()
if info is not None:
self.set_info(**info)
def check_msvc_gfortran_libs(self, library_dirs, libraries):
# First, find the full path to each library directory
library_paths = []
for library in libraries:
for library_dir in library_dirs:
# MinGW static ext will be .a
fullpath = os.path.join(library_dir, library + '.a')
if os.path.isfile(fullpath):
library_paths.append(fullpath)
break
else:
return None
# Generate numpy.distutils virtual static library file
basename = self.__class__.__name__
tmpdir = os.path.join(os.getcwd(), 'build', basename)
if not os.path.isdir(tmpdir):
os.makedirs(tmpdir)
info = {'library_dirs': [tmpdir],
'libraries': [basename],
'language': 'f77'}
fake_lib_file = os.path.join(tmpdir, basename + '.fobjects')
fake_clib_file = os.path.join(tmpdir, basename + '.cobjects')
with open(fake_lib_file, 'w') as f:
f.write("\n".join(library_paths))
with open(fake_clib_file, 'w') as f:
pass
return info
def check_symbols(self, info):
res = False
c = customized_ccompiler()
tmpdir = tempfile.mkdtemp()
prototypes = "\n".join("void %s%s%s();" % (self.symbol_prefix,
symbol_name,
self.symbol_suffix)
for symbol_name in self._require_symbols)
calls = "\n".join("%s%s%s();" % (self.symbol_prefix,
symbol_name,
self.symbol_suffix)
for symbol_name in self._require_symbols)
s = textwrap.dedent("""\
%(prototypes)s
int main(int argc, const char *argv[])
{
%(calls)s
return 0;
}""") % dict(prototypes=prototypes, calls=calls)
src = os.path.join(tmpdir, 'source.c')
out = os.path.join(tmpdir, 'a.out')
# Add the additional "extra" arguments
try:
extra_args = info['extra_link_args']
except Exception:
extra_args = []
try:
with open(src, 'wt') as f:
f.write(s)
obj = c.compile([src], output_dir=tmpdir)
try:
c.link_executable(obj, out, libraries=info['libraries'],
library_dirs=info['library_dirs'],
extra_postargs=extra_args)
res = True
except distutils.ccompiler.LinkError:
res = False
finally:
shutil.rmtree(tmpdir)
return res
class openblas_lapack_info(openblas_info):
section = 'openblas'
dir_env_var = 'OPENBLAS'
_lib_names = ['openblas']
_require_symbols = ['zungqr_']
notfounderror = BlasNotFoundError
class openblas_clapack_info(openblas_lapack_info):
_lib_names = ['openblas', 'lapack']
class openblas_ilp64_info(openblas_info):
section = 'openblas_ilp64'
dir_env_var = 'OPENBLAS_ILP64'
_lib_names = ['openblas64']
_require_symbols = ['dgemm_', 'cblas_dgemm']
notfounderror = BlasILP64NotFoundError
def _calc_info(self):
info = super()._calc_info()
if info is not None:
info['define_macros'] += [('HAVE_BLAS_ILP64', None)]
return info
class openblas_ilp64_lapack_info(openblas_ilp64_info):
_require_symbols = ['dgemm_', 'cblas_dgemm', 'zungqr_', 'LAPACKE_zungqr']
def _calc_info(self):
info = super()._calc_info()
if info:
info['define_macros'] += [('HAVE_LAPACKE', None)]
return info
class openblas64__info(openblas_ilp64_info):
# ILP64 Openblas, with default symbol suffix
section = 'openblas64_'
dir_env_var = 'OPENBLAS64_'
_lib_names = ['openblas64_']
symbol_suffix = '64_'
symbol_prefix = ''
class openblas64__lapack_info(openblas_ilp64_lapack_info, openblas64__info):
pass
class blis_info(blas_info):
section = 'blis'
dir_env_var = 'BLIS'
_lib_names = ['blis']
notfounderror = BlasNotFoundError
def calc_info(self):
lib_dirs = self.get_lib_dirs()
opt = self.get_option_single('blis_libs', 'libraries')
blis_libs = self.get_libs(opt, self._lib_names)
info = self.check_libs2(lib_dirs, blis_libs, [])
if info is None:
return
# Add include dirs
incl_dirs = self.get_include_dirs()
dict_append(info,
language='c',
define_macros=[('HAVE_CBLAS', None)],
include_dirs=incl_dirs)
self.set_info(**info)
class flame_info(system_info):
""" Usage of libflame for LAPACK operations
This requires libflame to be compiled with lapack wrappers:
./configure --enable-lapack2flame ...
Be aware that libflame 5.1.0 has some missing names in the shared library, so
if you have problems, try the static flame library.
"""
section = 'flame'
_lib_names = ['flame']
notfounderror = FlameNotFoundError
def check_embedded_lapack(self, info):
""" libflame does not necessarily have a wrapper for fortran LAPACK, we need to check """
c = customized_ccompiler()
tmpdir = tempfile.mkdtemp()
s = textwrap.dedent("""\
void zungqr_();
int main(int argc, const char *argv[])
{
zungqr_();
return 0;
}""")
src = os.path.join(tmpdir, 'source.c')
out = os.path.join(tmpdir, 'a.out')
# Add the additional "extra" arguments
extra_args = info.get('extra_link_args', [])
try:
with open(src, 'wt') as f:
f.write(s)
obj = c.compile([src], output_dir=tmpdir)
try:
c.link_executable(obj, out, libraries=info['libraries'],
library_dirs=info['library_dirs'],
extra_postargs=extra_args)
return True
except distutils.ccompiler.LinkError:
return False
finally:
shutil.rmtree(tmpdir)
def calc_info(self):
lib_dirs = self.get_lib_dirs()
flame_libs = self.get_libs('libraries', self._lib_names)
info = self.check_libs2(lib_dirs, flame_libs, [])
if info is None:
return
# Add the extra flag args to info
extra_info = self.calc_extra_info()
dict_append(info, **extra_info)
if self.check_embedded_lapack(info):
# check if the user has supplied all information required
self.set_info(**info)
else:
# Try and get the BLAS lib to see if we can get it to work
blas_info = get_info('blas_opt')
if not blas_info:
# since we already failed once, this ain't going to work either
return
# Now we need to merge the two dictionaries
for key in blas_info:
if isinstance(blas_info[key], list):
info[key] = info.get(key, []) + blas_info[key]
elif isinstance(blas_info[key], tuple):
info[key] = info.get(key, ()) + blas_info[key]
else:
info[key] = info.get(key, '') + blas_info[key]
# Now check again
if self.check_embedded_lapack(info):
self.set_info(**info)
class accelerate_info(system_info):
section = 'accelerate'
_lib_names = ['accelerate', 'veclib']
notfounderror = BlasNotFoundError
def calc_info(self):
# Make possible to enable/disable from config file/env var
libraries = os.environ.get('ACCELERATE')
if libraries:
libraries = [libraries]
else:
libraries = self.get_libs('libraries', self._lib_names)
libraries = [lib.strip().lower() for lib in libraries]
if (sys.platform == 'darwin' and
not os.getenv('_PYTHON_HOST_PLATFORM', None)):
# Use the system BLAS from Accelerate or vecLib under OSX
args = []
link_args = []
if get_platform()[-4:] == 'i386' or 'intel' in get_platform() or \
'x86_64' in get_platform() or \
'i386' in platform.platform():
intel = 1
else:
intel = 0
if (os.path.exists('/System/Library/Frameworks'
'/Accelerate.framework/') and
'accelerate' in libraries):
if intel:
args.extend(['-msse3'])
args.extend([
'-I/System/Library/Frameworks/vecLib.framework/Headers'])
link_args.extend(['-Wl,-framework', '-Wl,Accelerate'])
elif (os.path.exists('/System/Library/Frameworks'
'/vecLib.framework/') and
'veclib' in libraries):
if intel:
args.extend(['-msse3'])
args.extend([
'-I/System/Library/Frameworks/vecLib.framework/Headers'])
link_args.extend(['-Wl,-framework', '-Wl,vecLib'])
if args:
self.set_info(extra_compile_args=args,
extra_link_args=link_args,
define_macros=[('NO_ATLAS_INFO', 3),
('HAVE_CBLAS', None)])
return
class blas_src_info(system_info):
# BLAS_SRC is deprecated, please do not use this!
# Build or install a BLAS library via your package manager or from
# source separately.
section = 'blas_src'
dir_env_var = 'BLAS_SRC'
notfounderror = BlasSrcNotFoundError
def get_paths(self, section, key):
pre_dirs = system_info.get_paths(self, section, key)
dirs = []
for d in pre_dirs:
dirs.extend([d] + self.combine_paths(d, ['blas']))
return [d for d in dirs if os.path.isdir(d)]
def calc_info(self):
src_dirs = self.get_src_dirs()
src_dir = ''
for d in src_dirs:
if os.path.isfile(os.path.join(d, 'daxpy.f')):
src_dir = d
break
if not src_dir:
#XXX: Get sources from netlib. May be ask first.
return
blas1 = '''
caxpy csscal dnrm2 dzasum saxpy srotg zdotc ccopy cswap drot
dznrm2 scasum srotm zdotu cdotc dasum drotg icamax scnrm2
srotmg zdrot cdotu daxpy drotm idamax scopy sscal zdscal crotg
dcabs1 drotmg isamax sdot sswap zrotg cscal dcopy dscal izamax
snrm2 zaxpy zscal csrot ddot dswap sasum srot zcopy zswap
scabs1
'''
blas2 = '''
cgbmv chpmv ctrsv dsymv dtrsv sspr2 strmv zhemv ztpmv cgemv
chpr dgbmv dsyr lsame ssymv strsv zher ztpsv cgerc chpr2 dgemv
dsyr2 sgbmv ssyr xerbla zher2 ztrmv cgeru ctbmv dger dtbmv
sgemv ssyr2 zgbmv zhpmv ztrsv chbmv ctbsv dsbmv dtbsv sger
stbmv zgemv zhpr chemv ctpmv dspmv dtpmv ssbmv stbsv zgerc
zhpr2 cher ctpsv dspr dtpsv sspmv stpmv zgeru ztbmv cher2
ctrmv dspr2 dtrmv sspr stpsv zhbmv ztbsv
'''
blas3 = '''
cgemm csymm ctrsm dsyrk sgemm strmm zhemm zsyr2k chemm csyr2k
dgemm dtrmm ssymm strsm zher2k zsyrk cher2k csyrk dsymm dtrsm
ssyr2k zherk ztrmm cherk ctrmm dsyr2k ssyrk zgemm zsymm ztrsm
'''
sources = [os.path.join(src_dir, f + '.f') \
for f in (blas1 + blas2 + blas3).split()]
#XXX: should we check here actual existence of source files?
sources = [f for f in sources if os.path.isfile(f)]
info = {'sources': sources, 'language': 'f77'}
self.set_info(**info)
class x11_info(system_info):
section = 'x11'
notfounderror = X11NotFoundError
_lib_names = ['X11']
def __init__(self):
system_info.__init__(self,
default_lib_dirs=default_x11_lib_dirs,
default_include_dirs=default_x11_include_dirs)
def calc_info(self):
if sys.platform in ['win32']:
return
lib_dirs = self.get_lib_dirs()
include_dirs = self.get_include_dirs()
opt = self.get_option_single('x11_libs', 'libraries')
x11_libs = self.get_libs(opt, self._lib_names)
info = self.check_libs(lib_dirs, x11_libs, [])
if info is None:
return
inc_dir = None
for d in include_dirs:
if self.combine_paths(d, 'X11/X.h'):
inc_dir = d
break
if inc_dir is not None:
dict_append(info, include_dirs=[inc_dir])
self.set_info(**info)
class _numpy_info(system_info):
section = 'Numeric'
modulename = 'Numeric'
notfounderror = NumericNotFoundError
def __init__(self):
include_dirs = []
try:
module = __import__(self.modulename)
prefix = []
for name in module.__file__.split(os.sep):
if name == 'lib':
break
prefix.append(name)
# Ask numpy for its own include path before attempting
# anything else
try:
include_dirs.append(getattr(module, 'get_include')())
except AttributeError:
pass
include_dirs.append(sysconfig.get_path('include'))
except ImportError:
pass
py_incl_dir = sysconfig.get_path('include')
include_dirs.append(py_incl_dir)
py_pincl_dir = sysconfig.get_path('platinclude')
if py_pincl_dir not in include_dirs:
include_dirs.append(py_pincl_dir)
for d in default_include_dirs:
d = os.path.join(d, os.path.basename(py_incl_dir))
if d not in include_dirs:
include_dirs.append(d)
system_info.__init__(self,
default_lib_dirs=[],
default_include_dirs=include_dirs)
def calc_info(self):
try:
module = __import__(self.modulename)
except ImportError:
return
info = {}
macros = []
for v in ['__version__', 'version']:
vrs = getattr(module, v, None)
if vrs is None:
continue
macros = [(self.modulename.upper() + '_VERSION',
_c_string_literal(vrs)),
(self.modulename.upper(), None)]
break
dict_append(info, define_macros=macros)
include_dirs = self.get_include_dirs()
inc_dir = None
for d in include_dirs:
if self.combine_paths(d,
os.path.join(self.modulename,
'arrayobject.h')):
inc_dir = d
break
if inc_dir is not None:
dict_append(info, include_dirs=[inc_dir])
if info:
self.set_info(**info)
return
class numarray_info(_numpy_info):
section = 'numarray'
modulename = 'numarray'
class Numeric_info(_numpy_info):
section = 'Numeric'
modulename = 'Numeric'
class numpy_info(_numpy_info):
section = 'numpy'
modulename = 'numpy'
class numerix_info(system_info):
section = 'numerix'
def calc_info(self):
which = None, None
if os.getenv("NUMERIX"):
which = os.getenv("NUMERIX"), "environment var"
# If all the above fail, default to numpy.
if which[0] is None:
which = "numpy", "defaulted"
try:
import numpy # noqa: F401
which = "numpy", "defaulted"
except ImportError as e:
msg1 = str(e)
try:
import Numeric # noqa: F401
which = "numeric", "defaulted"
except ImportError as e:
msg2 = str(e)
try:
import numarray # noqa: F401
which = "numarray", "defaulted"
except ImportError as e:
msg3 = str(e)
log.info(msg1)
log.info(msg2)
log.info(msg3)
which = which[0].strip().lower(), which[1]
if which[0] not in ["numeric", "numarray", "numpy"]:
raise ValueError("numerix selector must be either 'Numeric' "
"or 'numarray' or 'numpy' but the value obtained"
" from the %s was '%s'." % (which[1], which[0]))
os.environ['NUMERIX'] = which[0]
self.set_info(**get_info(which[0]))
class f2py_info(system_info):
def calc_info(self):
try:
import numpy.f2py as f2py
except ImportError:
return
f2py_dir = os.path.join(os.path.dirname(f2py.__file__), 'src')
self.set_info(sources=[os.path.join(f2py_dir, 'fortranobject.c')],
include_dirs=[f2py_dir])
return
class boost_python_info(system_info):
section = 'boost_python'
dir_env_var = 'BOOST'
def get_paths(self, section, key):
pre_dirs = system_info.get_paths(self, section, key)
dirs = []
for d in pre_dirs:
dirs.extend([d] + self.combine_paths(d, ['boost*']))
return [d for d in dirs if os.path.isdir(d)]
def calc_info(self):
src_dirs = self.get_src_dirs()
src_dir = ''
for d in src_dirs:
if os.path.isfile(os.path.join(d, 'libs', 'python', 'src',
'module.cpp')):
src_dir = d
break
if not src_dir:
return
py_incl_dirs = [sysconfig.get_path('include')]
py_pincl_dir = sysconfig.get_path('platinclude')
if py_pincl_dir not in py_incl_dirs:
py_incl_dirs.append(py_pincl_dir)
srcs_dir = os.path.join(src_dir, 'libs', 'python', 'src')
bpl_srcs = glob(os.path.join(srcs_dir, '*.cpp'))
bpl_srcs += glob(os.path.join(srcs_dir, '*', '*.cpp'))
info = {'libraries': [('boost_python_src',
{'include_dirs': [src_dir] + py_incl_dirs,
'sources':bpl_srcs}
)],
'include_dirs': [src_dir],
}
if info:
self.set_info(**info)
return
class agg2_info(system_info):
section = 'agg2'
dir_env_var = 'AGG2'
def get_paths(self, section, key):
pre_dirs = system_info.get_paths(self, section, key)
dirs = []
for d in pre_dirs:
dirs.extend([d] + self.combine_paths(d, ['agg2*']))
return [d for d in dirs if os.path.isdir(d)]
def calc_info(self):
src_dirs = self.get_src_dirs()
src_dir = ''
for d in src_dirs:
if os.path.isfile(os.path.join(d, 'src', 'agg_affine_matrix.cpp')):
src_dir = d
break
if not src_dir:
return
if sys.platform == 'win32':
agg2_srcs = glob(os.path.join(src_dir, 'src', 'platform',
'win32', 'agg_win32_bmp.cpp'))
else:
agg2_srcs = glob(os.path.join(src_dir, 'src', '*.cpp'))
agg2_srcs += [os.path.join(src_dir, 'src', 'platform',
'X11',
'agg_platform_support.cpp')]
info = {'libraries':
[('agg2_src',
{'sources': agg2_srcs,
'include_dirs': [os.path.join(src_dir, 'include')],
}
)],
'include_dirs': [os.path.join(src_dir, 'include')],
}
if info:
self.set_info(**info)
return
class _pkg_config_info(system_info):
section = None
config_env_var = 'PKG_CONFIG'
default_config_exe = 'pkg-config'
append_config_exe = ''
version_macro_name = None
release_macro_name = None
version_flag = '--modversion'
cflags_flag = '--cflags'
def get_config_exe(self):
if self.config_env_var in os.environ:
return os.environ[self.config_env_var]
return self.default_config_exe
def get_config_output(self, config_exe, option):
cmd = config_exe + ' ' + self.append_config_exe + ' ' + option
try:
o = subprocess.check_output(cmd)
except (OSError, subprocess.CalledProcessError):
pass
else:
o = filepath_from_subprocess_output(o)
return o
def calc_info(self):
config_exe = find_executable(self.get_config_exe())
if not config_exe:
log.warn('File not found: %s. Cannot determine %s info.' \
% (config_exe, self.section))
return
info = {}
macros = []
libraries = []
library_dirs = []
include_dirs = []
extra_link_args = []
extra_compile_args = []
version = self.get_config_output(config_exe, self.version_flag)
if version:
macros.append((self.__class__.__name__.split('.')[-1].upper(),
_c_string_literal(version)))
if self.version_macro_name:
macros.append((self.version_macro_name + '_%s'
% (version.replace('.', '_')), None))
if self.release_macro_name:
release = self.get_config_output(config_exe, '--release')
if release:
macros.append((self.release_macro_name + '_%s'
% (release.replace('.', '_')), None))
opts = self.get_config_output(config_exe, '--libs')
if opts:
for opt in opts.split():
if opt[:2] == '-l':
libraries.append(opt[2:])
elif opt[:2] == '-L':
library_dirs.append(opt[2:])
else:
extra_link_args.append(opt)
opts = self.get_config_output(config_exe, self.cflags_flag)
if opts:
for opt in opts.split():
if opt[:2] == '-I':
include_dirs.append(opt[2:])
elif opt[:2] == '-D':
if '=' in opt:
n, v = opt[2:].split('=')
macros.append((n, v))
else:
macros.append((opt[2:], None))
else:
extra_compile_args.append(opt)
if macros:
dict_append(info, define_macros=macros)
if libraries:
dict_append(info, libraries=libraries)
if library_dirs:
dict_append(info, library_dirs=library_dirs)
if include_dirs:
dict_append(info, include_dirs=include_dirs)
if extra_link_args:
dict_append(info, extra_link_args=extra_link_args)
if extra_compile_args:
dict_append(info, extra_compile_args=extra_compile_args)
if info:
self.set_info(**info)
return
class wx_info(_pkg_config_info):
section = 'wx'
config_env_var = 'WX_CONFIG'
default_config_exe = 'wx-config'
append_config_exe = ''
version_macro_name = 'WX_VERSION'
release_macro_name = 'WX_RELEASE'
version_flag = '--version'
cflags_flag = '--cxxflags'
class gdk_pixbuf_xlib_2_info(_pkg_config_info):
section = 'gdk_pixbuf_xlib_2'
append_config_exe = 'gdk-pixbuf-xlib-2.0'
version_macro_name = 'GDK_PIXBUF_XLIB_VERSION'
class gdk_pixbuf_2_info(_pkg_config_info):
section = 'gdk_pixbuf_2'
append_config_exe = 'gdk-pixbuf-2.0'
version_macro_name = 'GDK_PIXBUF_VERSION'
class gdk_x11_2_info(_pkg_config_info):
section = 'gdk_x11_2'
append_config_exe = 'gdk-x11-2.0'
version_macro_name = 'GDK_X11_VERSION'
class gdk_2_info(_pkg_config_info):
section = 'gdk_2'
append_config_exe = 'gdk-2.0'
version_macro_name = 'GDK_VERSION'
class gdk_info(_pkg_config_info):
section = 'gdk'
append_config_exe = 'gdk'
version_macro_name = 'GDK_VERSION'
class gtkp_x11_2_info(_pkg_config_info):
section = 'gtkp_x11_2'
append_config_exe = 'gtk+-x11-2.0'
version_macro_name = 'GTK_X11_VERSION'
class gtkp_2_info(_pkg_config_info):
section = 'gtkp_2'
append_config_exe = 'gtk+-2.0'
version_macro_name = 'GTK_VERSION'
class xft_info(_pkg_config_info):
section = 'xft'
append_config_exe = 'xft'
version_macro_name = 'XFT_VERSION'
class freetype2_info(_pkg_config_info):
section = 'freetype2'
append_config_exe = 'freetype2'
version_macro_name = 'FREETYPE2_VERSION'
class amd_info(system_info):
section = 'amd'
dir_env_var = 'AMD'
_lib_names = ['amd']
def calc_info(self):
lib_dirs = self.get_lib_dirs()
opt = self.get_option_single('amd_libs', 'libraries')
amd_libs = self.get_libs(opt, self._lib_names)
info = self.check_libs(lib_dirs, amd_libs, [])
if info is None:
return
include_dirs = self.get_include_dirs()
inc_dir = None
for d in include_dirs:
p = self.combine_paths(d, 'amd.h')
if p:
inc_dir = os.path.dirname(p[0])
break
if inc_dir is not None:
dict_append(info, include_dirs=[inc_dir],
define_macros=[('SCIPY_AMD_H', None)],
swig_opts=['-I' + inc_dir])
self.set_info(**info)
return
class umfpack_info(system_info):
section = 'umfpack'
dir_env_var = 'UMFPACK'
notfounderror = UmfpackNotFoundError
_lib_names = ['umfpack']
def calc_info(self):
lib_dirs = self.get_lib_dirs()
opt = self.get_option_single('umfpack_libs', 'libraries')
umfpack_libs = self.get_libs(opt, self._lib_names)
info = self.check_libs(lib_dirs, umfpack_libs, [])
if info is None:
return
include_dirs = self.get_include_dirs()
inc_dir = None
for d in include_dirs:
p = self.combine_paths(d, ['', 'umfpack'], 'umfpack.h')
if p:
inc_dir = os.path.dirname(p[0])
break
if inc_dir is not None:
dict_append(info, include_dirs=[inc_dir],
define_macros=[('SCIPY_UMFPACK_H', None)],
swig_opts=['-I' + inc_dir])
dict_append(info, **get_info('amd'))
self.set_info(**info)
return
def combine_paths(*args, **kws):
""" Return a list of existing paths composed by all combinations of
items from arguments.
"""
r = []
for a in args:
if not a:
continue
if is_string(a):
a = [a]
r.append(a)
args = r
if not args:
return []
if len(args) == 1:
result = reduce(lambda a, b: a + b, map(glob, args[0]), [])
elif len(args) == 2:
result = []
for a0 in args[0]:
for a1 in args[1]:
result.extend(glob(os.path.join(a0, a1)))
else:
result = combine_paths(*(combine_paths(args[0], args[1]) + args[2:]))
log.debug('(paths: %s)', ','.join(result))
return result
language_map = {'c': 0, 'c++': 1, 'f77': 2, 'f90': 3}
inv_language_map = {0: 'c', 1: 'c++', 2: 'f77', 3: 'f90'}
def dict_append(d, **kws):
languages = []
for k, v in kws.items():
if k == 'language':
languages.append(v)
continue
if k in d:
if k in ['library_dirs', 'include_dirs',
'extra_compile_args', 'extra_link_args',
'runtime_library_dirs', 'define_macros']:
[d[k].append(vv) for vv in v if vv not in d[k]]
else:
d[k].extend(v)
else:
d[k] = v
if languages:
l = inv_language_map[max([language_map.get(l, 0) for l in languages])]
d['language'] = l
return
def parseCmdLine(argv=(None,)):
import optparse
parser = optparse.OptionParser("usage: %prog [-v] [info objs]")
parser.add_option('-v', '--verbose', action='store_true', dest='verbose',
default=False,
help='be verbose and print more messages')
opts, args = parser.parse_args(args=argv[1:])
return opts, args
def show_all(argv=None):
import inspect
if argv is None:
argv = sys.argv
opts, args = parseCmdLine(argv)
if opts.verbose:
log.set_threshold(log.DEBUG)
else:
log.set_threshold(log.INFO)
show_only = []
for n in args:
if n[-5:] != '_info':
n = n + '_info'
show_only.append(n)
show_all = not show_only
_gdict_ = globals().copy()
for name, c in _gdict_.items():
if not inspect.isclass(c):
continue
if not issubclass(c, system_info) or c is system_info:
continue
if not show_all:
if name not in show_only:
continue
del show_only[show_only.index(name)]
conf = c()
conf.verbosity = 2
# we don't need the result, but we want
# the side effect of printing diagnostics
conf.get_info()
if show_only:
log.info('Info classes not defined: %s', ','.join(show_only))
if __name__ == "__main__":
show_all()