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Direktori : /opt/cloudlinux/venv/lib/python3.11/site-packages/cffi/ |
Current File : //opt/cloudlinux/venv/lib/python3.11/site-packages/cffi/setuptools_ext.py |
import os import sys try: basestring except NameError: # Python 3.x basestring = str def error(msg): from distutils.errors import DistutilsSetupError raise DistutilsSetupError(msg) def execfile(filename, glob): # We use execfile() (here rewritten for Python 3) instead of # __import__() to load the build script. The problem with # a normal import is that in some packages, the intermediate # __init__.py files may already try to import the file that # we are generating. with open(filename) as f: src = f.read() src += '\n' # Python 2.6 compatibility code = compile(src, filename, 'exec') exec(code, glob, glob) def add_cffi_module(dist, mod_spec): from cffi.api import FFI if not isinstance(mod_spec, basestring): error("argument to 'cffi_modules=...' must be a str or a list of str," " not %r" % (type(mod_spec).__name__,)) mod_spec = str(mod_spec) try: build_file_name, ffi_var_name = mod_spec.split(':') except ValueError: error("%r must be of the form 'path/build.py:ffi_variable'" % (mod_spec,)) if not os.path.exists(build_file_name): ext = '' rewritten = build_file_name.replace('.', '/') + '.py' if os.path.exists(rewritten): ext = ' (rewrite cffi_modules to [%r])' % ( rewritten + ':' + ffi_var_name,) error("%r does not name an existing file%s" % (build_file_name, ext)) mod_vars = {'__name__': '__cffi__', '__file__': build_file_name} execfile(build_file_name, mod_vars) try: ffi = mod_vars[ffi_var_name] except KeyError: error("%r: object %r not found in module" % (mod_spec, ffi_var_name)) if not isinstance(ffi, FFI): ffi = ffi() # maybe it's a function instead of directly an ffi if not isinstance(ffi, FFI): error("%r is not an FFI instance (got %r)" % (mod_spec, type(ffi).__name__)) if not hasattr(ffi, '_assigned_source'): error("%r: the set_source() method was not called" % (mod_spec,)) module_name, source, source_extension, kwds = ffi._assigned_source if ffi._windows_unicode: kwds = kwds.copy() ffi._apply_windows_unicode(kwds) if source is None: _add_py_module(dist, ffi, module_name) else: _add_c_module(dist, ffi, module_name, source, source_extension, kwds) def _set_py_limited_api(Extension, kwds): """ Add py_limited_api to kwds if setuptools >= 26 is in use. Do not alter the setting if it already exists. Setuptools takes care of ignoring the flag on Python 2 and PyPy. CPython itself should ignore the flag in a debugging version (by not listing .abi3.so in the extensions it supports), but it doesn't so far, creating troubles. That's why we check for "not hasattr(sys, 'gettotalrefcount')" (the 2.7 compatible equivalent of 'd' not in sys.abiflags). (http://bugs.python.org/issue28401) On Windows, with CPython <= 3.4, it's better not to use py_limited_api because virtualenv *still* doesn't copy PYTHON3.DLL on these versions. Recently (2020) we started shipping only >= 3.5 wheels, though. So we'll give it another try and set py_limited_api on Windows >= 3.5. """ from cffi import recompiler if ('py_limited_api' not in kwds and not hasattr(sys, 'gettotalrefcount') and recompiler.USE_LIMITED_API): import setuptools try: setuptools_major_version = int(setuptools.__version__.partition('.')[0]) if setuptools_major_version >= 26: kwds['py_limited_api'] = True except ValueError: # certain development versions of setuptools # If we don't know the version number of setuptools, we # try to set 'py_limited_api' anyway. At worst, we get a # warning. kwds['py_limited_api'] = True return kwds def _add_c_module(dist, ffi, module_name, source, source_extension, kwds): from distutils.core import Extension # We are a setuptools extension. Need this build_ext for py_limited_api. from setuptools.command.build_ext import build_ext from distutils.dir_util import mkpath from distutils import log from cffi import recompiler allsources = ['$PLACEHOLDER'] allsources.extend(kwds.pop('sources', [])) kwds = _set_py_limited_api(Extension, kwds) ext = Extension(name=module_name, sources=allsources, **kwds) def make_mod(tmpdir, pre_run=None): c_file = os.path.join(tmpdir, module_name + source_extension) log.info("generating cffi module %r" % c_file) mkpath(tmpdir) # a setuptools-only, API-only hook: called with the "ext" and "ffi" # arguments just before we turn the ffi into C code. To use it, # subclass the 'distutils.command.build_ext.build_ext' class and # add a method 'def pre_run(self, ext, ffi)'. if pre_run is not None: pre_run(ext, ffi) updated = recompiler.make_c_source(ffi, module_name, source, c_file) if not updated: log.info("already up-to-date") return c_file if dist.ext_modules is None: dist.ext_modules = [] dist.ext_modules.append(ext) base_class = dist.cmdclass.get('build_ext', build_ext) class build_ext_make_mod(base_class): def run(self): if ext.sources[0] == '$PLACEHOLDER': pre_run = getattr(self, 'pre_run', None) ext.sources[0] = make_mod(self.build_temp, pre_run) base_class.run(self) dist.cmdclass['build_ext'] = build_ext_make_mod # NB. multiple runs here will create multiple 'build_ext_make_mod' # classes. Even in this case the 'build_ext' command should be # run once; but just in case, the logic above does nothing if # called again. def _add_py_module(dist, ffi, module_name): from distutils.dir_util import mkpath from setuptools.command.build_py import build_py from setuptools.command.build_ext import build_ext from distutils import log from cffi import recompiler def generate_mod(py_file): log.info("generating cffi module %r" % py_file) mkpath(os.path.dirname(py_file)) updated = recompiler.make_py_source(ffi, module_name, py_file) if not updated: log.info("already up-to-date") base_class = dist.cmdclass.get('build_py', build_py) class build_py_make_mod(base_class): def run(self): base_class.run(self) module_path = module_name.split('.') module_path[-1] += '.py' generate_mod(os.path.join(self.build_lib, *module_path)) def get_source_files(self): # This is called from 'setup.py sdist' only. Exclude # the generate .py module in this case. saved_py_modules = self.py_modules try: if saved_py_modules: self.py_modules = [m for m in saved_py_modules if m != module_name] return base_class.get_source_files(self) finally: self.py_modules = saved_py_modules dist.cmdclass['build_py'] = build_py_make_mod # distutils and setuptools have no notion I could find of a # generated python module. If we don't add module_name to # dist.py_modules, then things mostly work but there are some # combination of options (--root and --record) that will miss # the module. So we add it here, which gives a few apparently # harmless warnings about not finding the file outside the # build directory. # Then we need to hack more in get_source_files(); see above. if dist.py_modules is None: dist.py_modules = [] dist.py_modules.append(module_name) # the following is only for "build_ext -i" base_class_2 = dist.cmdclass.get('build_ext', build_ext) class build_ext_make_mod(base_class_2): def run(self): base_class_2.run(self) if self.inplace: # from get_ext_fullpath() in distutils/command/build_ext.py module_path = module_name.split('.') package = '.'.join(module_path[:-1]) build_py = self.get_finalized_command('build_py') package_dir = build_py.get_package_dir(package) file_name = module_path[-1] + '.py' generate_mod(os.path.join(package_dir, file_name)) dist.cmdclass['build_ext'] = build_ext_make_mod def cffi_modules(dist, attr, value): assert attr == 'cffi_modules' if isinstance(value, basestring): value = [value] for cffi_module in value: add_cffi_module(dist, cffi_module)