ai-content-maker/.venv/Lib/site-packages/numpy/distutils/tests/test_system_info.py

335 lines
11 KiB
Python

import os
import shutil
import pytest
from tempfile import mkstemp, mkdtemp
from subprocess import Popen, PIPE
import importlib.metadata
from distutils.errors import DistutilsError
from numpy.testing import assert_, assert_equal, assert_raises
from numpy.distutils import ccompiler, customized_ccompiler
from numpy.distutils.system_info import system_info, ConfigParser, mkl_info
from numpy.distutils.system_info import AliasedOptionError
from numpy.distutils.system_info import default_lib_dirs, default_include_dirs
from numpy.distutils import _shell_utils
try:
if importlib.metadata.version('setuptools') >= '60':
# pkg-resources gives deprecation warnings, and there may be more
# issues. We only support setuptools <60
pytest.skip("setuptools is too new", allow_module_level=True)
except importlib.metadata.PackageNotFoundError:
# we don't require `setuptools`; if it is not found, continue
pass
def get_class(name, notfound_action=1):
"""
notfound_action:
0 - do nothing
1 - display warning message
2 - raise error
"""
cl = {'temp1': Temp1Info,
'temp2': Temp2Info,
'duplicate_options': DuplicateOptionInfo,
}.get(name.lower(), _system_info)
return cl()
simple_site = """
[ALL]
library_dirs = {dir1:s}{pathsep:s}{dir2:s}
libraries = {lib1:s},{lib2:s}
extra_compile_args = -I/fake/directory -I"/path with/spaces" -Os
runtime_library_dirs = {dir1:s}
[temp1]
library_dirs = {dir1:s}
libraries = {lib1:s}
runtime_library_dirs = {dir1:s}
[temp2]
library_dirs = {dir2:s}
libraries = {lib2:s}
extra_link_args = -Wl,-rpath={lib2_escaped:s}
rpath = {dir2:s}
[duplicate_options]
mylib_libs = {lib1:s}
libraries = {lib2:s}
"""
site_cfg = simple_site
fakelib_c_text = """
/* This file is generated from numpy/distutils/testing/test_system_info.py */
#include<stdio.h>
void foo(void) {
printf("Hello foo");
}
void bar(void) {
printf("Hello bar");
}
"""
def have_compiler():
""" Return True if there appears to be an executable compiler
"""
compiler = customized_ccompiler()
try:
cmd = compiler.compiler # Unix compilers
except AttributeError:
try:
if not compiler.initialized:
compiler.initialize() # MSVC is different
except (DistutilsError, ValueError):
return False
cmd = [compiler.cc]
try:
p = Popen(cmd, stdout=PIPE, stderr=PIPE)
p.stdout.close()
p.stderr.close()
p.wait()
except OSError:
return False
return True
HAVE_COMPILER = have_compiler()
class _system_info(system_info):
def __init__(self,
default_lib_dirs=default_lib_dirs,
default_include_dirs=default_include_dirs,
verbosity=1,
):
self.__class__.info = {}
self.local_prefixes = []
defaults = {'library_dirs': '',
'include_dirs': '',
'runtime_library_dirs': '',
'rpath': '',
'src_dirs': '',
'search_static_first': "0",
'extra_compile_args': '',
'extra_link_args': ''}
self.cp = ConfigParser(defaults)
# We have to parse the config files afterwards
# to have a consistent temporary filepath
def _check_libs(self, lib_dirs, libs, opt_libs, exts):
"""Override _check_libs to return with all dirs """
info = {'libraries': libs, 'library_dirs': lib_dirs}
return info
class Temp1Info(_system_info):
"""For testing purposes"""
section = 'temp1'
class Temp2Info(_system_info):
"""For testing purposes"""
section = 'temp2'
class DuplicateOptionInfo(_system_info):
"""For testing purposes"""
section = 'duplicate_options'
class TestSystemInfoReading:
def setup_method(self):
""" Create the libraries """
# Create 2 sources and 2 libraries
self._dir1 = mkdtemp()
self._src1 = os.path.join(self._dir1, 'foo.c')
self._lib1 = os.path.join(self._dir1, 'libfoo.so')
self._dir2 = mkdtemp()
self._src2 = os.path.join(self._dir2, 'bar.c')
self._lib2 = os.path.join(self._dir2, 'libbar.so')
# Update local site.cfg
global simple_site, site_cfg
site_cfg = simple_site.format(**{
'dir1': self._dir1,
'lib1': self._lib1,
'dir2': self._dir2,
'lib2': self._lib2,
'pathsep': os.pathsep,
'lib2_escaped': _shell_utils.NativeParser.join([self._lib2])
})
# Write site.cfg
fd, self._sitecfg = mkstemp()
os.close(fd)
with open(self._sitecfg, 'w') as fd:
fd.write(site_cfg)
# Write the sources
with open(self._src1, 'w') as fd:
fd.write(fakelib_c_text)
with open(self._src2, 'w') as fd:
fd.write(fakelib_c_text)
# We create all class-instances
def site_and_parse(c, site_cfg):
c.files = [site_cfg]
c.parse_config_files()
return c
self.c_default = site_and_parse(get_class('default'), self._sitecfg)
self.c_temp1 = site_and_parse(get_class('temp1'), self._sitecfg)
self.c_temp2 = site_and_parse(get_class('temp2'), self._sitecfg)
self.c_dup_options = site_and_parse(get_class('duplicate_options'),
self._sitecfg)
def teardown_method(self):
# Do each removal separately
try:
shutil.rmtree(self._dir1)
except Exception:
pass
try:
shutil.rmtree(self._dir2)
except Exception:
pass
try:
os.remove(self._sitecfg)
except Exception:
pass
def test_all(self):
# Read in all information in the ALL block
tsi = self.c_default
assert_equal(tsi.get_lib_dirs(), [self._dir1, self._dir2])
assert_equal(tsi.get_libraries(), [self._lib1, self._lib2])
assert_equal(tsi.get_runtime_lib_dirs(), [self._dir1])
extra = tsi.calc_extra_info()
assert_equal(extra['extra_compile_args'], ['-I/fake/directory', '-I/path with/spaces', '-Os'])
def test_temp1(self):
# Read in all information in the temp1 block
tsi = self.c_temp1
assert_equal(tsi.get_lib_dirs(), [self._dir1])
assert_equal(tsi.get_libraries(), [self._lib1])
assert_equal(tsi.get_runtime_lib_dirs(), [self._dir1])
def test_temp2(self):
# Read in all information in the temp2 block
tsi = self.c_temp2
assert_equal(tsi.get_lib_dirs(), [self._dir2])
assert_equal(tsi.get_libraries(), [self._lib2])
# Now from rpath and not runtime_library_dirs
assert_equal(tsi.get_runtime_lib_dirs(key='rpath'), [self._dir2])
extra = tsi.calc_extra_info()
assert_equal(extra['extra_link_args'], ['-Wl,-rpath=' + self._lib2])
def test_duplicate_options(self):
# Ensure that duplicates are raising an AliasedOptionError
tsi = self.c_dup_options
assert_raises(AliasedOptionError, tsi.get_option_single, "mylib_libs", "libraries")
assert_equal(tsi.get_libs("mylib_libs", [self._lib1]), [self._lib1])
assert_equal(tsi.get_libs("libraries", [self._lib2]), [self._lib2])
@pytest.mark.skipif(not HAVE_COMPILER, reason="Missing compiler")
def test_compile1(self):
# Compile source and link the first source
c = customized_ccompiler()
previousDir = os.getcwd()
try:
# Change directory to not screw up directories
os.chdir(self._dir1)
c.compile([os.path.basename(self._src1)], output_dir=self._dir1)
# Ensure that the object exists
assert_(os.path.isfile(self._src1.replace('.c', '.o')) or
os.path.isfile(self._src1.replace('.c', '.obj')))
finally:
os.chdir(previousDir)
@pytest.mark.skipif(not HAVE_COMPILER, reason="Missing compiler")
@pytest.mark.skipif('msvc' in repr(ccompiler.new_compiler()),
reason="Fails with MSVC compiler ")
def test_compile2(self):
# Compile source and link the second source
tsi = self.c_temp2
c = customized_ccompiler()
extra_link_args = tsi.calc_extra_info()['extra_link_args']
previousDir = os.getcwd()
try:
# Change directory to not screw up directories
os.chdir(self._dir2)
c.compile([os.path.basename(self._src2)], output_dir=self._dir2,
extra_postargs=extra_link_args)
# Ensure that the object exists
assert_(os.path.isfile(self._src2.replace('.c', '.o')))
finally:
os.chdir(previousDir)
HAS_MKL = "mkl_rt" in mkl_info().calc_libraries_info().get("libraries", [])
@pytest.mark.xfail(HAS_MKL, reason=("`[DEFAULT]` override doesn't work if "
"numpy is built with MKL support"))
def test_overrides(self):
previousDir = os.getcwd()
cfg = os.path.join(self._dir1, 'site.cfg')
shutil.copy(self._sitecfg, cfg)
try:
os.chdir(self._dir1)
# Check that the '[ALL]' section does not override
# missing values from other sections
info = mkl_info()
lib_dirs = info.cp['ALL']['library_dirs'].split(os.pathsep)
assert info.get_lib_dirs() != lib_dirs
# But if we copy the values to a '[mkl]' section the value
# is correct
with open(cfg) as fid:
mkl = fid.read().replace('[ALL]', '[mkl]', 1)
with open(cfg, 'w') as fid:
fid.write(mkl)
info = mkl_info()
assert info.get_lib_dirs() == lib_dirs
# Also, the values will be taken from a section named '[DEFAULT]'
with open(cfg) as fid:
dflt = fid.read().replace('[mkl]', '[DEFAULT]', 1)
with open(cfg, 'w') as fid:
fid.write(dflt)
info = mkl_info()
assert info.get_lib_dirs() == lib_dirs
finally:
os.chdir(previousDir)
def test_distutils_parse_env_order(monkeypatch):
from numpy.distutils.system_info import _parse_env_order
env = 'NPY_TESTS_DISTUTILS_PARSE_ENV_ORDER'
base_order = list('abcdef')
monkeypatch.setenv(env, 'b,i,e,f')
order, unknown = _parse_env_order(base_order, env)
assert len(order) == 3
assert order == list('bef')
assert len(unknown) == 1
# For when LAPACK/BLAS optimization is disabled
monkeypatch.setenv(env, '')
order, unknown = _parse_env_order(base_order, env)
assert len(order) == 0
assert len(unknown) == 0
for prefix in '^!':
monkeypatch.setenv(env, f'{prefix}b,i,e')
order, unknown = _parse_env_order(base_order, env)
assert len(order) == 4
assert order == list('acdf')
assert len(unknown) == 1
with pytest.raises(ValueError):
monkeypatch.setenv(env, 'b,^e,i')
_parse_env_order(base_order, env)
with pytest.raises(ValueError):
monkeypatch.setenv(env, '!b,^e,i')
_parse_env_order(base_order, env)