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Direktori : /proc/self/root/proc/self/root/usr/lib64/python2.7/site-packages/cffi/ |
Current File : //proc/self/root/proc/self/root/usr/lib64/python2.7/site-packages/cffi/setuptools_ext.py |
import os 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 _add_c_module(dist, ffi, module_name, source, source_extension, kwds): from distutils.core import Extension from distutils.command.build_ext import build_ext from distutils.dir_util import mkpath from distutils import log from cffi import recompiler allsources = ['$PLACEHOLDER'] allsources.extend(kwds.pop('sources', [])) ext = Extension(name=module_name, sources=allsources, **kwds) def make_mod(tmpdir, pre_run=None): c_file = os.path.join(tmpdir, module_name + source_extension) log.info("generating cffi module %r" % c_file) mkpath(tmpdir) # a setuptools-only, API-only hook: called with the "ext" and "ffi" # arguments just before we turn the ffi into C code. To use it, # subclass the 'distutils.command.build_ext.build_ext' class and # add a method 'def pre_run(self, ext, ffi)'. if pre_run is not None: pre_run(ext, ffi) updated = recompiler.make_c_source(ffi, module_name, source, c_file) if not updated: log.info("already up-to-date") return c_file if dist.ext_modules is None: dist.ext_modules = [] dist.ext_modules.append(ext) base_class = dist.cmdclass.get('build_ext', build_ext) class build_ext_make_mod(base_class): def run(self): if ext.sources[0] == '$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 distutils.command.build_py import build_py from distutils.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)) dist.cmdclass['build_py'] = build_py_make_mod # 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)