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Direktori : /opt/cloudlinux/venv/lib64/python3.11/site-packages/numpy/distutils/tests/ |
Current File : //opt/cloudlinux/venv/lib64/python3.11/site-packages/numpy/distutils/tests/test_system_info.py |
import os import shutil import pytest from tempfile import mkstemp, mkdtemp from subprocess import Popen, PIPE 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 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)