ekelner/venv/Lib/site-packages/numpy/distutils/command/build_ext.py

""" Modified version of build_ext that handles fortran source files.

"""
from __future__ import division, absolute_import, print_function

import os
import subprocess
from glob import glob

from distutils.dep_util import newer_group
from distutils.command.build_ext import build_ext as old_build_ext
from distutils.errors import DistutilsFileError, DistutilsSetupError,\
    DistutilsError
from distutils.file_util import copy_file

from numpy.distutils import log
from numpy.distutils.exec_command import filepath_from_subprocess_output
from numpy.distutils.system_info import combine_paths, system_info
from numpy.distutils.misc_util import filter_sources, has_f_sources, \
    has_cxx_sources, get_ext_source_files, \
    get_numpy_include_dirs, is_sequence, get_build_architecture, \
    msvc_version
from numpy.distutils.command.config_compiler import show_fortran_compilers


class build_ext (old_build_ext):

    description = "build C/C++/F extensions (compile/link to build directory)"

    user_options = old_build_ext.user_options + [
        ('fcompiler=', None,
         "specify the Fortran compiler type"),
        ('parallel=', 'j',
         "number of parallel jobs"),
        ('warn-error', None,
         "turn all warnings into errors (-Werror)"),
    ]

    help_options = old_build_ext.help_options + [
        ('help-fcompiler', None, "list available Fortran compilers",
         show_fortran_compilers),
    ]

    boolean_options = old_build_ext.boolean_options + ['warn-error']

    def initialize_options(self):
        old_build_ext.initialize_options(self)
        self.fcompiler = None
        self.parallel = None
        self.warn_error = None

    def finalize_options(self):
        if self.parallel:
            try:
                self.parallel = int(self.parallel)
            except ValueError:
                raise ValueError("--parallel/-j argument must be an integer")

        # Ensure that self.include_dirs and self.distribution.include_dirs
        # refer to the same list object. finalize_options will modify
        # self.include_dirs, but self.distribution.include_dirs is used
        # during the actual build.
        # self.include_dirs is None unless paths are specified with
        # --include-dirs.
        # The include paths will be passed to the compiler in the order:
        # numpy paths, --include-dirs paths, Python include path.
        if isinstance(self.include_dirs, str):
            self.include_dirs = self.include_dirs.split(os.pathsep)
        incl_dirs = self.include_dirs or []
        if self.distribution.include_dirs is None:
            self.distribution.include_dirs = []
        self.include_dirs = self.distribution.include_dirs
        self.include_dirs.extend(incl_dirs)

        old_build_ext.finalize_options(self)
        self.set_undefined_options('build',
                                        ('parallel', 'parallel'),
                                        ('warn_error', 'warn_error'),
                                  )

    def run(self):
        if not self.extensions:
            return

        # Make sure that extension sources are complete.
        self.run_command('build_src')

        if self.distribution.has_c_libraries():
            if self.inplace:
                if self.distribution.have_run.get('build_clib'):
                    log.warn('build_clib already run, it is too late to '
                             'ensure in-place build of build_clib')
                    build_clib = self.distribution.get_command_obj(
                        'build_clib')
                else:
                    build_clib = self.distribution.get_command_obj(
                        'build_clib')
                    build_clib.inplace = 1
                    build_clib.ensure_finalized()
                    build_clib.run()
                    self.distribution.have_run['build_clib'] = 1

            else:
                self.run_command('build_clib')
                build_clib = self.get_finalized_command('build_clib')
            self.library_dirs.append(build_clib.build_clib)
        else:
            build_clib = None

        # Not including C libraries to the list of
        # extension libraries automatically to prevent
        # bogus linking commands. Extensions must
        # explicitly specify the C libraries that they use.

        from distutils.ccompiler import new_compiler
        from numpy.distutils.fcompiler import new_fcompiler

        compiler_type = self.compiler
        # Initialize C compiler:
        self.compiler = new_compiler(compiler=compiler_type,
                                     verbose=self.verbose,
                                     dry_run=self.dry_run,
                                     force=self.force)
        self.compiler.customize(self.distribution)
        self.compiler.customize_cmd(self)

        if self.warn_error:
            self.compiler.compiler.append('-Werror')
            self.compiler.compiler_so.append('-Werror')

        self.compiler.show_customization()

        # Setup directory for storing generated extra DLL files on Windows
        self.extra_dll_dir = os.path.join(self.build_temp, '.libs')
        if not os.path.isdir(self.extra_dll_dir):
            os.makedirs(self.extra_dll_dir)

        # Create mapping of libraries built by build_clib:
        clibs = {}
        if build_clib is not None:
            for libname, build_info in build_clib.libraries or []:
                if libname in clibs and clibs[libname] != build_info:
                    log.warn('library %r defined more than once,'
                             ' overwriting build_info\n%s... \nwith\n%s...'
                             % (libname, repr(clibs[libname])[:300], repr(build_info)[:300]))
                clibs[libname] = build_info
        # .. and distribution libraries:
        for libname, build_info in self.distribution.libraries or []:
            if libname in clibs:
                # build_clib libraries have a precedence before distribution ones
                continue
            clibs[libname] = build_info

        # Determine if C++/Fortran 77/Fortran 90 compilers are needed.
        # Update extension libraries, library_dirs, and macros.
        all_languages = set()
        for ext in self.extensions:
            ext_languages = set()
            c_libs = []
            c_lib_dirs = []
            macros = []
            for libname in ext.libraries:
                if libname in clibs:
                    binfo = clibs[libname]
                    c_libs += binfo.get('libraries', [])
                    c_lib_dirs += binfo.get('library_dirs', [])
                    for m in binfo.get('macros', []):
                        if m not in macros:
                            macros.append(m)

                for l in clibs.get(libname, {}).get('source_languages', []):
                    ext_languages.add(l)
            if c_libs:
                new_c_libs = ext.libraries + c_libs
                log.info('updating extension %r libraries from %r to %r'
                         % (ext.name, ext.libraries, new_c_libs))
                ext.libraries = new_c_libs
                ext.library_dirs = ext.library_dirs + c_lib_dirs
            if macros:
                log.info('extending extension %r defined_macros with %r'
                         % (ext.name, macros))
                ext.define_macros = ext.define_macros + macros

            # determine extension languages
            if has_f_sources(ext.sources):
                ext_languages.add('f77')
            if has_cxx_sources(ext.sources):
                ext_languages.add('c++')
            l = ext.language or self.compiler.detect_language(ext.sources)
            if l:
                ext_languages.add(l)
            # reset language attribute for choosing proper linker
            if 'c++' in ext_languages:
                ext_language = 'c++'
            elif 'f90' in ext_languages:
                ext_language = 'f90'
            elif 'f77' in ext_languages:
                ext_language = 'f77'
            else:
                ext_language = 'c'  # default
            if l and l != ext_language and ext.language:
                log.warn('resetting extension %r language from %r to %r.' %
                         (ext.name, l, ext_language))
            ext.language = ext_language
            # global language
            all_languages.update(ext_languages)

        need_f90_compiler = 'f90' in all_languages
        need_f77_compiler = 'f77' in all_languages
        need_cxx_compiler = 'c++' in all_languages

        # Initialize C++ compiler:
        if need_cxx_compiler:
            self._cxx_compiler = new_compiler(compiler=compiler_type,
                                              verbose=self.verbose,
                                              dry_run=self.dry_run,
                                              force=self.force)
            compiler = self._cxx_compiler
            compiler.customize(self.distribution, need_cxx=need_cxx_compiler)
            compiler.customize_cmd(self)
            compiler.show_customization()
            self._cxx_compiler = compiler.cxx_compiler()
        else:
            self._cxx_compiler = None

        # Initialize Fortran 77 compiler:
        if need_f77_compiler:
            ctype = self.fcompiler
            self._f77_compiler = new_fcompiler(compiler=self.fcompiler,
                                               verbose=self.verbose,
                                               dry_run=self.dry_run,
                                               force=self.force,
                                               requiref90=False,
                                               c_compiler=self.compiler)
            fcompiler = self._f77_compiler
            if fcompiler:
                ctype = fcompiler.compiler_type
                fcompiler.customize(self.distribution)
            if fcompiler and fcompiler.get_version():
                fcompiler.customize_cmd(self)
                fcompiler.show_customization()
            else:
                self.warn('f77_compiler=%s is not available.' %
                          (ctype))
                self._f77_compiler = None
        else:
            self._f77_compiler = None

        # Initialize Fortran 90 compiler:
        if need_f90_compiler:
            ctype = self.fcompiler
            self._f90_compiler = new_fcompiler(compiler=self.fcompiler,
                                               verbose=self.verbose,
                                               dry_run=self.dry_run,
                                               force=self.force,
                                               requiref90=True,
                                               c_compiler=self.compiler)
            fcompiler = self._f90_compiler
            if fcompiler:
                ctype = fcompiler.compiler_type
                fcompiler.customize(self.distribution)
            if fcompiler and fcompiler.get_version():
                fcompiler.customize_cmd(self)
                fcompiler.show_customization()
            else:
                self.warn('f90_compiler=%s is not available.' %
                          (ctype))
                self._f90_compiler = None
        else:
            self._f90_compiler = None

        # Build extensions
        self.build_extensions()

        # Copy over any extra DLL files
        # FIXME: In the case where there are more than two packages,
        # we blindly assume that both packages need all of the libraries,
        # resulting in a larger wheel than is required. This should be fixed,
        # but it's so rare that I won't bother to handle it.
        pkg_roots = {
            self.get_ext_fullname(ext.name).split('.')[0]
            for ext in self.extensions
        }
        for pkg_root in pkg_roots:
            shared_lib_dir = os.path.join(pkg_root, '.libs')
            if not self.inplace:
                shared_lib_dir = os.path.join(self.build_lib, shared_lib_dir)
            for fn in os.listdir(self.extra_dll_dir):
                if not os.path.isdir(shared_lib_dir):
                    os.makedirs(shared_lib_dir)
                if not fn.lower().endswith('.dll'):
                    continue
                runtime_lib = os.path.join(self.extra_dll_dir, fn)
                copy_file(runtime_lib, shared_lib_dir)

    def swig_sources(self, sources, extensions=None):
        # Do nothing. Swig sources have been handled in build_src command.
        return sources

    def build_extension(self, ext):
        sources = ext.sources
        if sources is None or not is_sequence(sources):
            raise DistutilsSetupError(
                ("in 'ext_modules' option (extension '%s'), " +
                 "'sources' must be present and must be " +
                 "a list of source filenames") % ext.name)
        sources = list(sources)

        if not sources:
            return

        fullname = self.get_ext_fullname(ext.name)
        if self.inplace:
            modpath = fullname.split('.')
            package = '.'.join(modpath[0:-1])
            base = modpath[-1]
            build_py = self.get_finalized_command('build_py')
            package_dir = build_py.get_package_dir(package)
            ext_filename = os.path.join(package_dir,
                                        self.get_ext_filename(base))
        else:
            ext_filename = os.path.join(self.build_lib,
                                        self.get_ext_filename(fullname))
        depends = sources + ext.depends

        if not (self.force or newer_group(depends, ext_filename, 'newer')):
            log.debug("skipping '%s' extension (up-to-date)", ext.name)
            return
        else:
            log.info("building '%s' extension", ext.name)

        extra_args = ext.extra_compile_args or []
        macros = ext.define_macros[:]
        for undef in ext.undef_macros:
            macros.append((undef,))

        c_sources, cxx_sources, f_sources, fmodule_sources = \
            filter_sources(ext.sources)

        if self.compiler.compiler_type == 'msvc':
            if cxx_sources:
                # Needed to compile kiva.agg._agg extension.
                extra_args.append('/Zm1000')
            # this hack works around the msvc compiler attributes
            # problem, msvc uses its own convention :(
            c_sources += cxx_sources
            cxx_sources = []

        # Set Fortran/C++ compilers for compilation and linking.
        if ext.language == 'f90':
            fcompiler = self._f90_compiler
        elif ext.language == 'f77':
            fcompiler = self._f77_compiler
        else:  # in case ext.language is c++, for instance
            fcompiler = self._f90_compiler or self._f77_compiler
        if fcompiler is not None:
            fcompiler.extra_f77_compile_args = (ext.extra_f77_compile_args or []) if hasattr(
                ext, 'extra_f77_compile_args') else []
            fcompiler.extra_f90_compile_args = (ext.extra_f90_compile_args or []) if hasattr(
                ext, 'extra_f90_compile_args') else []
        cxx_compiler = self._cxx_compiler

        # check for the availability of required compilers
        if cxx_sources and cxx_compiler is None:
            raise DistutilsError("extension %r has C++ sources"
                                 "but no C++ compiler found" % (ext.name))
        if (f_sources or fmodule_sources) and fcompiler is None:
            raise DistutilsError("extension %r has Fortran sources "
                                 "but no Fortran compiler found" % (ext.name))
        if ext.language in ['f77', 'f90'] and fcompiler is None:
            self.warn("extension %r has Fortran libraries "
                      "but no Fortran linker found, using default linker" % (ext.name))
        if ext.language == 'c++' and cxx_compiler is None:
            self.warn("extension %r has C++ libraries "
                      "but no C++ linker found, using default linker" % (ext.name))

        kws = {'depends': ext.depends}
        output_dir = self.build_temp

        include_dirs = ext.include_dirs + get_numpy_include_dirs()

        c_objects = []
        if c_sources:
            log.info("compiling C sources")
            c_objects = self.compiler.compile(c_sources,
                                              output_dir=output_dir,
                                              macros=macros,
                                              include_dirs=include_dirs,
                                              debug=self.debug,
                                              extra_postargs=extra_args,
                                              **kws)

        if cxx_sources:
            log.info("compiling C++ sources")
            c_objects += cxx_compiler.compile(cxx_sources,
                                              output_dir=output_dir,
                                              macros=macros,
                                              include_dirs=include_dirs,
                                              debug=self.debug,
                                              extra_postargs=extra_args,
                                              **kws)

        extra_postargs = []
        f_objects = []
        if fmodule_sources:
            log.info("compiling Fortran 90 module sources")
            module_dirs = ext.module_dirs[:]
            module_build_dir = os.path.join(
                self.build_temp, os.path.dirname(
                    self.get_ext_filename(fullname)))

            self.mkpath(module_build_dir)
            if fcompiler.module_dir_switch is None:
                existing_modules = glob('*.mod')
            extra_postargs += fcompiler.module_options(
                module_dirs, module_build_dir)
            f_objects += fcompiler.compile(fmodule_sources,
                                           output_dir=self.build_temp,
                                           macros=macros,
                                           include_dirs=include_dirs,
                                           debug=self.debug,
                                           extra_postargs=extra_postargs,
                                           depends=ext.depends)

            if fcompiler.module_dir_switch is None:
                for f in glob('*.mod'):
                    if f in existing_modules:
                        continue
                    t = os.path.join(module_build_dir, f)
                    if os.path.abspath(f) == os.path.abspath(t):
                        continue
                    if os.path.isfile(t):
                        os.remove(t)
                    try:
                        self.move_file(f, module_build_dir)
                    except DistutilsFileError:
                        log.warn('failed to move %r to %r' %
                                 (f, module_build_dir))
        if f_sources:
            log.info("compiling Fortran sources")
            f_objects += fcompiler.compile(f_sources,
                                           output_dir=self.build_temp,
                                           macros=macros,
                                           include_dirs=include_dirs,
                                           debug=self.debug,
                                           extra_postargs=extra_postargs,
                                           depends=ext.depends)

        if f_objects and not fcompiler.can_ccompiler_link(self.compiler):
            unlinkable_fobjects = f_objects
            objects = c_objects
        else:
            unlinkable_fobjects = []
            objects = c_objects + f_objects

        if ext.extra_objects:
            objects.extend(ext.extra_objects)
        extra_args = ext.extra_link_args or []
        libraries = self.get_libraries(ext)[:]
        library_dirs = ext.library_dirs[:]

        linker = self.compiler.link_shared_object
        # Always use system linker when using MSVC compiler.
        if self.compiler.compiler_type in ('msvc', 'intelw', 'intelemw'):
            # expand libraries with fcompiler libraries as we are
            # not using fcompiler linker
            self._libs_with_msvc_and_fortran(
                fcompiler, libraries, library_dirs)

        elif ext.language in ['f77', 'f90'] and fcompiler is not None:
            linker = fcompiler.link_shared_object
        if ext.language == 'c++' and cxx_compiler is not None:
            linker = cxx_compiler.link_shared_object

        if fcompiler is not None:
            objects, libraries = self._process_unlinkable_fobjects(
                    objects, libraries,
                    fcompiler, library_dirs,
                    unlinkable_fobjects)

        linker(objects, ext_filename,
               libraries=libraries,
               library_dirs=library_dirs,
               runtime_library_dirs=ext.runtime_library_dirs,
               extra_postargs=extra_args,
               export_symbols=self.get_export_symbols(ext),
               debug=self.debug,
               build_temp=self.build_temp,
               target_lang=ext.language)

    def _add_dummy_mingwex_sym(self, c_sources):
        build_src = self.get_finalized_command("build_src").build_src
        build_clib = self.get_finalized_command("build_clib").build_clib
        objects = self.compiler.compile([os.path.join(build_src,
                                                      "gfortran_vs2003_hack.c")],
                                        output_dir=self.build_temp)
        self.compiler.create_static_lib(
            objects, "_gfortran_workaround", output_dir=build_clib, debug=self.debug)

    def _process_unlinkable_fobjects(self, objects, libraries,
                                     fcompiler, library_dirs,
                                     unlinkable_fobjects):
        libraries = list(libraries)
        objects = list(objects)
        unlinkable_fobjects = list(unlinkable_fobjects)

        # Expand possible fake static libraries to objects
        for lib in list(libraries):
            for libdir in library_dirs:
                fake_lib = os.path.join(libdir, lib + '.fobjects')
                if os.path.isfile(fake_lib):
                    # Replace fake static library
                    libraries.remove(lib)
                    with open(fake_lib, 'r') as f:
                        unlinkable_fobjects.extend(f.read().splitlines())

                    # Expand C objects
                    c_lib = os.path.join(libdir, lib + '.cobjects')
                    with open(c_lib, 'r') as f:
                        objects.extend(f.read().splitlines())

        # Wrap unlinkable objects to a linkable one
        if unlinkable_fobjects:
            fobjects = [os.path.relpath(obj) for obj in unlinkable_fobjects]
            wrapped = fcompiler.wrap_unlinkable_objects(
                    fobjects, output_dir=self.build_temp,
                    extra_dll_dir=self.extra_dll_dir)
            objects.extend(wrapped)

        return objects, libraries

    def _libs_with_msvc_and_fortran(self, fcompiler, c_libraries,
                                    c_library_dirs):
        if fcompiler is None:
            return

        for libname in c_libraries:
            if libname.startswith('msvc'):
                continue
            fileexists = False
            for libdir in c_library_dirs or []:
                libfile = os.path.join(libdir, '%s.lib' % (libname))
                if os.path.isfile(libfile):
                    fileexists = True
                    break
            if fileexists:
                continue
            # make g77-compiled static libs available to MSVC
            fileexists = False
            for libdir in c_library_dirs:
                libfile = os.path.join(libdir, 'lib%s.a' % (libname))
                if os.path.isfile(libfile):
                    # copy libname.a file to name.lib so that MSVC linker
                    # can find it
                    libfile2 = os.path.join(self.build_temp, libname + '.lib')
                    copy_file(libfile, libfile2)
                    if self.build_temp not in c_library_dirs:
                        c_library_dirs.append(self.build_temp)
                    fileexists = True
                    break
            if fileexists:
                continue
            log.warn('could not find library %r in directories %s'
                     % (libname, c_library_dirs))

        # Always use system linker when using MSVC compiler.
        f_lib_dirs = []
        for dir in fcompiler.library_dirs:
            # correct path when compiling in Cygwin but with normal Win
            # Python
            if dir.startswith('/usr/lib'):
                try:
                    dir = subprocess.check_output(['cygpath', '-w', dir])
                except (OSError, subprocess.CalledProcessError):
                    pass
                else:
                    dir = filepath_from_subprocess_output(dir)
            f_lib_dirs.append(dir)
        c_library_dirs.extend(f_lib_dirs)

        # make g77-compiled static libs available to MSVC
        for lib in fcompiler.libraries:
            if not lib.startswith('msvc'):
                c_libraries.append(lib)
                p = combine_paths(f_lib_dirs, 'lib' + lib + '.a')
                if p:
                    dst_name = os.path.join(self.build_temp, lib + '.lib')
                    if not os.path.isfile(dst_name):
                        copy_file(p[0], dst_name)
                    if self.build_temp not in c_library_dirs:
                        c_library_dirs.append(self.build_temp)

    def get_source_files(self):
        self.check_extensions_list(self.extensions)
        filenames = []
        for ext in self.extensions:
            filenames.extend(get_ext_source_files(ext))
        return filenames

    def get_outputs(self):
        self.check_extensions_list(self.extensions)

        outputs = []
        for ext in self.extensions:
            if not ext.sources:
                continue
            fullname = self.get_ext_fullname(ext.name)
            outputs.append(os.path.join(self.build_lib,
                                        self.get_ext_filename(fullname)))
        return outputs
Pierwszy commit 2020-02-18 06:47:42 +01:00			`""" Modified version of build_ext that handles fortran source files.`

			`"""`
			`from __future__ import division, absolute_import, print_function`

			`import os`
			`import subprocess`
			`from glob import glob`

			`from distutils.dep_util import newer_group`
			`from distutils.command.build_ext import build_ext as old_build_ext`
			`from distutils.errors import DistutilsFileError, DistutilsSetupError,\`
			`DistutilsError`
			`from distutils.file_util import copy_file`

			`from numpy.distutils import log`
			`from numpy.distutils.exec_command import filepath_from_subprocess_output`
			`from numpy.distutils.system_info import combine_paths, system_info`
			`from numpy.distutils.misc_util import filter_sources, has_f_sources, \`
			`has_cxx_sources, get_ext_source_files, \`
			`get_numpy_include_dirs, is_sequence, get_build_architecture, \`
			`msvc_version`
			`from numpy.distutils.command.config_compiler import show_fortran_compilers`



			`class build_ext (old_build_ext):`

			`description = "build C/C++/F extensions (compile/link to build directory)"`

			`user_options = old_build_ext.user_options + [`
			`('fcompiler=', None,`
			`"specify the Fortran compiler type"),`
			`('parallel=', 'j',`
			`"number of parallel jobs"),`
			`('warn-error', None,`
			`"turn all warnings into errors (-Werror)"),`
			`]`

			`help_options = old_build_ext.help_options + [`
			`('help-fcompiler', None, "list available Fortran compilers",`
			`show_fortran_compilers),`
			`]`

			`boolean_options = old_build_ext.boolean_options + ['warn-error']`

			`def initialize_options(self):`
			`old_build_ext.initialize_options(self)`
			`self.fcompiler = None`
			`self.parallel = None`
			`self.warn_error = None`

			`def finalize_options(self):`
			`if self.parallel:`
			`try:`
			`self.parallel = int(self.parallel)`
			`except ValueError:`
			`raise ValueError("--parallel/-j argument must be an integer")`

			`# Ensure that self.include_dirs and self.distribution.include_dirs`
			`# refer to the same list object. finalize_options will modify`
			`# self.include_dirs, but self.distribution.include_dirs is used`
			`# during the actual build.`
			`# self.include_dirs is None unless paths are specified with`
			`# --include-dirs.`
			`# The include paths will be passed to the compiler in the order:`
			`# numpy paths, --include-dirs paths, Python include path.`
			`if isinstance(self.include_dirs, str):`
			`self.include_dirs = self.include_dirs.split(os.pathsep)`
			`incl_dirs = self.include_dirs or []`
			`if self.distribution.include_dirs is None:`
			`self.distribution.include_dirs = []`
			`self.include_dirs = self.distribution.include_dirs`
			`self.include_dirs.extend(incl_dirs)`

			`old_build_ext.finalize_options(self)`
			`self.set_undefined_options('build',`
			`('parallel', 'parallel'),`
			`('warn_error', 'warn_error'),`
			`)`

			`def run(self):`
			`if not self.extensions:`
			`return`

			`# Make sure that extension sources are complete.`
			`self.run_command('build_src')`

			`if self.distribution.has_c_libraries():`
			`if self.inplace:`
			`if self.distribution.have_run.get('build_clib'):`
			`log.warn('build_clib already run, it is too late to '`
			`'ensure in-place build of build_clib')`
			`build_clib = self.distribution.get_command_obj(`
			`'build_clib')`
			`else:`
			`build_clib = self.distribution.get_command_obj(`
			`'build_clib')`
			`build_clib.inplace = 1`
			`build_clib.ensure_finalized()`
			`build_clib.run()`
			`self.distribution.have_run['build_clib'] = 1`

			`else:`
			`self.run_command('build_clib')`
			`build_clib = self.get_finalized_command('build_clib')`
			`self.library_dirs.append(build_clib.build_clib)`
			`else:`
			`build_clib = None`

			`# Not including C libraries to the list of`
			`# extension libraries automatically to prevent`
			`# bogus linking commands. Extensions must`
			`# explicitly specify the C libraries that they use.`

			`from distutils.ccompiler import new_compiler`
			`from numpy.distutils.fcompiler import new_fcompiler`

			`compiler_type = self.compiler`
			`# Initialize C compiler:`
			`self.compiler = new_compiler(compiler=compiler_type,`
			`verbose=self.verbose,`
			`dry_run=self.dry_run,`
			`force=self.force)`
			`self.compiler.customize(self.distribution)`
			`self.compiler.customize_cmd(self)`

			`if self.warn_error:`
			`self.compiler.compiler.append('-Werror')`
			`self.compiler.compiler_so.append('-Werror')`

			`self.compiler.show_customization()`

			`# Setup directory for storing generated extra DLL files on Windows`
			`self.extra_dll_dir = os.path.join(self.build_temp, '.libs')`
			`if not os.path.isdir(self.extra_dll_dir):`
			`os.makedirs(self.extra_dll_dir)`

			`# Create mapping of libraries built by build_clib:`
			`clibs = {}`
			`if build_clib is not None:`
			`for libname, build_info in build_clib.libraries or []:`
			`if libname in clibs and clibs[libname] != build_info:`
			`log.warn('library %r defined more than once,'`
			`' overwriting build_info\n%s... \nwith\n%s...'`
			`% (libname, repr(clibs[libname])[:300], repr(build_info)[:300]))`
			`clibs[libname] = build_info`
			`# .. and distribution libraries:`
			`for libname, build_info in self.distribution.libraries or []:`
			`if libname in clibs:`
			`# build_clib libraries have a precedence before distribution ones`
			`continue`
			`clibs[libname] = build_info`

			`# Determine if C++/Fortran 77/Fortran 90 compilers are needed.`
			`# Update extension libraries, library_dirs, and macros.`
			`all_languages = set()`
			`for ext in self.extensions:`
			`ext_languages = set()`
			`c_libs = []`
			`c_lib_dirs = []`
			`macros = []`
			`for libname in ext.libraries:`
			`if libname in clibs:`
			`binfo = clibs[libname]`
			`c_libs += binfo.get('libraries', [])`
			`c_lib_dirs += binfo.get('library_dirs', [])`
			`for m in binfo.get('macros', []):`
			`if m not in macros:`
			`macros.append(m)`

			`for l in clibs.get(libname, {}).get('source_languages', []):`
			`ext_languages.add(l)`
			`if c_libs:`
			`new_c_libs = ext.libraries + c_libs`
			`log.info('updating extension %r libraries from %r to %r'`
			`% (ext.name, ext.libraries, new_c_libs))`
			`ext.libraries = new_c_libs`
			`ext.library_dirs = ext.library_dirs + c_lib_dirs`
			`if macros:`
			`log.info('extending extension %r defined_macros with %r'`
			`% (ext.name, macros))`
			`ext.define_macros = ext.define_macros + macros`

			`# determine extension languages`
			`if has_f_sources(ext.sources):`
			`ext_languages.add('f77')`
			`if has_cxx_sources(ext.sources):`
			`ext_languages.add('c++')`
			`l = ext.language or self.compiler.detect_language(ext.sources)`
			`if l:`
			`ext_languages.add(l)`
			`# reset language attribute for choosing proper linker`
			`if 'c++' in ext_languages:`
			`ext_language = 'c++'`
			`elif 'f90' in ext_languages:`
			`ext_language = 'f90'`
			`elif 'f77' in ext_languages:`
			`ext_language = 'f77'`
			`else:`
			`ext_language = 'c' # default`
			`if l and l != ext_language and ext.language:`
			`log.warn('resetting extension %r language from %r to %r.' %`
			`(ext.name, l, ext_language))`
			`ext.language = ext_language`
			`# global language`
			`all_languages.update(ext_languages)`

			`need_f90_compiler = 'f90' in all_languages`
			`need_f77_compiler = 'f77' in all_languages`
			`need_cxx_compiler = 'c++' in all_languages`

			`# Initialize C++ compiler:`
			`if need_cxx_compiler:`
			`self._cxx_compiler = new_compiler(compiler=compiler_type,`
			`verbose=self.verbose,`
			`dry_run=self.dry_run,`
			`force=self.force)`
			`compiler = self._cxx_compiler`
			`compiler.customize(self.distribution, need_cxx=need_cxx_compiler)`
			`compiler.customize_cmd(self)`
			`compiler.show_customization()`
			`self._cxx_compiler = compiler.cxx_compiler()`
			`else:`
			`self._cxx_compiler = None`

			`# Initialize Fortran 77 compiler:`
			`if need_f77_compiler:`
			`ctype = self.fcompiler`
			`self._f77_compiler = new_fcompiler(compiler=self.fcompiler,`
			`verbose=self.verbose,`
			`dry_run=self.dry_run,`
			`force=self.force,`
			`requiref90=False,`
			`c_compiler=self.compiler)`
			`fcompiler = self._f77_compiler`
			`if fcompiler:`
			`ctype = fcompiler.compiler_type`
			`fcompiler.customize(self.distribution)`
			`if fcompiler and fcompiler.get_version():`
			`fcompiler.customize_cmd(self)`
			`fcompiler.show_customization()`
			`else:`
			`self.warn('f77_compiler=%s is not available.' %`
			`(ctype))`
			`self._f77_compiler = None`
			`else:`
			`self._f77_compiler = None`

			`# Initialize Fortran 90 compiler:`
			`if need_f90_compiler:`
			`ctype = self.fcompiler`
			`self._f90_compiler = new_fcompiler(compiler=self.fcompiler,`
			`verbose=self.verbose,`
			`dry_run=self.dry_run,`
			`force=self.force,`
			`requiref90=True,`
			`c_compiler=self.compiler)`
			`fcompiler = self._f90_compiler`
			`if fcompiler:`
			`ctype = fcompiler.compiler_type`
			`fcompiler.customize(self.distribution)`
			`if fcompiler and fcompiler.get_version():`
			`fcompiler.customize_cmd(self)`
			`fcompiler.show_customization()`
			`else:`
			`self.warn('f90_compiler=%s is not available.' %`
			`(ctype))`
			`self._f90_compiler = None`
			`else:`
			`self._f90_compiler = None`

			`# Build extensions`
			`self.build_extensions()`

			`# Copy over any extra DLL files`
			`# FIXME: In the case where there are more than two packages,`
			`# we blindly assume that both packages need all of the libraries,`
			`# resulting in a larger wheel than is required. This should be fixed,`
			`# but it's so rare that I won't bother to handle it.`
			`pkg_roots = {`
			`self.get_ext_fullname(ext.name).split('.')[0]`
			`for ext in self.extensions`
			`}`
			`for pkg_root in pkg_roots:`
			`shared_lib_dir = os.path.join(pkg_root, '.libs')`
			`if not self.inplace:`
			`shared_lib_dir = os.path.join(self.build_lib, shared_lib_dir)`
			`for fn in os.listdir(self.extra_dll_dir):`
			`if not os.path.isdir(shared_lib_dir):`
			`os.makedirs(shared_lib_dir)`
			`if not fn.lower().endswith('.dll'):`
			`continue`
			`runtime_lib = os.path.join(self.extra_dll_dir, fn)`
			`copy_file(runtime_lib, shared_lib_dir)`

			`def swig_sources(self, sources, extensions=None):`
			`# Do nothing. Swig sources have been handled in build_src command.`
			`return sources`

			`def build_extension(self, ext):`
			`sources = ext.sources`
			`if sources is None or not is_sequence(sources):`
			`raise DistutilsSetupError(`
			`("in 'ext_modules' option (extension '%s'), " +`
			`"'sources' must be present and must be " +`
			`"a list of source filenames") % ext.name)`
			`sources = list(sources)`

			`if not sources:`
			`return`

			`fullname = self.get_ext_fullname(ext.name)`
			`if self.inplace:`
			`modpath = fullname.split('.')`
			`package = '.'.join(modpath[0:-1])`
			`base = modpath[-1]`
			`build_py = self.get_finalized_command('build_py')`
			`package_dir = build_py.get_package_dir(package)`
			`ext_filename = os.path.join(package_dir,`
			`self.get_ext_filename(base))`
			`else:`
			`ext_filename = os.path.join(self.build_lib,`
			`self.get_ext_filename(fullname))`
			`depends = sources + ext.depends`

			`if not (self.force or newer_group(depends, ext_filename, 'newer')):`
			`log.debug("skipping '%s' extension (up-to-date)", ext.name)`
			`return`
			`else:`
			`log.info("building '%s' extension", ext.name)`

			`extra_args = ext.extra_compile_args or []`
			`macros = ext.define_macros[:]`
			`for undef in ext.undef_macros:`
			`macros.append((undef,))`

			`c_sources, cxx_sources, f_sources, fmodule_sources = \`
			`filter_sources(ext.sources)`

			`if self.compiler.compiler_type == 'msvc':`
			`if cxx_sources:`
			`# Needed to compile kiva.agg._agg extension.`
			`extra_args.append('/Zm1000')`
			`# this hack works around the msvc compiler attributes`
			`# problem, msvc uses its own convention :(`
			`c_sources += cxx_sources`
			`cxx_sources = []`

			`# Set Fortran/C++ compilers for compilation and linking.`
			`if ext.language == 'f90':`
			`fcompiler = self._f90_compiler`
			`elif ext.language == 'f77':`
			`fcompiler = self._f77_compiler`
			`else: # in case ext.language is c++, for instance`
			`fcompiler = self._f90_compiler or self._f77_compiler`
			`if fcompiler is not None:`
			`fcompiler.extra_f77_compile_args = (ext.extra_f77_compile_args or []) if hasattr(`
			`ext, 'extra_f77_compile_args') else []`
			`fcompiler.extra_f90_compile_args = (ext.extra_f90_compile_args or []) if hasattr(`
			`ext, 'extra_f90_compile_args') else []`
			`cxx_compiler = self._cxx_compiler`

			`# check for the availability of required compilers`
			`if cxx_sources and cxx_compiler is None:`
			`raise DistutilsError("extension %r has C++ sources"`
			`"but no C++ compiler found" % (ext.name))`
			`if (f_sources or fmodule_sources) and fcompiler is None:`
			`raise DistutilsError("extension %r has Fortran sources "`
			`"but no Fortran compiler found" % (ext.name))`
			`if ext.language in ['f77', 'f90'] and fcompiler is None:`
			`self.warn("extension %r has Fortran libraries "`
			`"but no Fortran linker found, using default linker" % (ext.name))`
			`if ext.language == 'c++' and cxx_compiler is None:`
			`self.warn("extension %r has C++ libraries "`
			`"but no C++ linker found, using default linker" % (ext.name))`

			`kws = {'depends': ext.depends}`
			`output_dir = self.build_temp`

			`include_dirs = ext.include_dirs + get_numpy_include_dirs()`

			`c_objects = []`
			`if c_sources:`
			`log.info("compiling C sources")`
			`c_objects = self.compiler.compile(c_sources,`
			`output_dir=output_dir,`
			`macros=macros,`
			`include_dirs=include_dirs,`
			`debug=self.debug,`
			`extra_postargs=extra_args,`
			`**kws)`

			`if cxx_sources:`
			`log.info("compiling C++ sources")`
			`c_objects += cxx_compiler.compile(cxx_sources,`
			`output_dir=output_dir,`
			`macros=macros,`
			`include_dirs=include_dirs,`
			`debug=self.debug,`
			`extra_postargs=extra_args,`
			`**kws)`

			`extra_postargs = []`
			`f_objects = []`
			`if fmodule_sources:`
			`log.info("compiling Fortran 90 module sources")`
			`module_dirs = ext.module_dirs[:]`
			`module_build_dir = os.path.join(`
			`self.build_temp, os.path.dirname(`
			`self.get_ext_filename(fullname)))`

			`self.mkpath(module_build_dir)`
			`if fcompiler.module_dir_switch is None:`
			`existing_modules = glob('*.mod')`
			`extra_postargs += fcompiler.module_options(`
			`module_dirs, module_build_dir)`
			`f_objects += fcompiler.compile(fmodule_sources,`
			`output_dir=self.build_temp,`
			`macros=macros,`
			`include_dirs=include_dirs,`
			`debug=self.debug,`
			`extra_postargs=extra_postargs,`
			`depends=ext.depends)`

			`if fcompiler.module_dir_switch is None:`
			`for f in glob('*.mod'):`
			`if f in existing_modules:`
			`continue`
			`t = os.path.join(module_build_dir, f)`
			`if os.path.abspath(f) == os.path.abspath(t):`
			`continue`
			`if os.path.isfile(t):`
			`os.remove(t)`
			`try:`
			`self.move_file(f, module_build_dir)`
			`except DistutilsFileError:`
			`log.warn('failed to move %r to %r' %`
			`(f, module_build_dir))`
			`if f_sources:`
			`log.info("compiling Fortran sources")`
			`f_objects += fcompiler.compile(f_sources,`
			`output_dir=self.build_temp,`
			`macros=macros,`
			`include_dirs=include_dirs,`
			`debug=self.debug,`
			`extra_postargs=extra_postargs,`
			`depends=ext.depends)`

			`if f_objects and not fcompiler.can_ccompiler_link(self.compiler):`
			`unlinkable_fobjects = f_objects`
			`objects = c_objects`
			`else:`
			`unlinkable_fobjects = []`
			`objects = c_objects + f_objects`

			`if ext.extra_objects:`
			`objects.extend(ext.extra_objects)`
			`extra_args = ext.extra_link_args or []`
			`libraries = self.get_libraries(ext)[:]`
			`library_dirs = ext.library_dirs[:]`

			`linker = self.compiler.link_shared_object`
			`# Always use system linker when using MSVC compiler.`
			`if self.compiler.compiler_type in ('msvc', 'intelw', 'intelemw'):`
			`# expand libraries with fcompiler libraries as we are`
			`# not using fcompiler linker`
			`self._libs_with_msvc_and_fortran(`
			`fcompiler, libraries, library_dirs)`

			`elif ext.language in ['f77', 'f90'] and fcompiler is not None:`
			`linker = fcompiler.link_shared_object`
			`if ext.language == 'c++' and cxx_compiler is not None:`
			`linker = cxx_compiler.link_shared_object`

			`if fcompiler is not None:`
			`objects, libraries = self._process_unlinkable_fobjects(`
			`objects, libraries,`
			`fcompiler, library_dirs,`
			`unlinkable_fobjects)`

			`linker(objects, ext_filename,`
			`libraries=libraries,`
			`library_dirs=library_dirs,`
			`runtime_library_dirs=ext.runtime_library_dirs,`
			`extra_postargs=extra_args,`
			`export_symbols=self.get_export_symbols(ext),`
			`debug=self.debug,`
			`build_temp=self.build_temp,`
			`target_lang=ext.language)`

			`def _add_dummy_mingwex_sym(self, c_sources):`
			`build_src = self.get_finalized_command("build_src").build_src`
			`build_clib = self.get_finalized_command("build_clib").build_clib`
			`objects = self.compiler.compile([os.path.join(build_src,`
			`"gfortran_vs2003_hack.c")],`
			`output_dir=self.build_temp)`
			`self.compiler.create_static_lib(`
			`objects, "_gfortran_workaround", output_dir=build_clib, debug=self.debug)`

			`def _process_unlinkable_fobjects(self, objects, libraries,`
			`fcompiler, library_dirs,`
			`unlinkable_fobjects):`
			`libraries = list(libraries)`
			`objects = list(objects)`
			`unlinkable_fobjects = list(unlinkable_fobjects)`

			`# Expand possible fake static libraries to objects`
			`for lib in list(libraries):`
			`for libdir in library_dirs:`
			`fake_lib = os.path.join(libdir, lib + '.fobjects')`
			`if os.path.isfile(fake_lib):`
			`# Replace fake static library`
			`libraries.remove(lib)`
			`with open(fake_lib, 'r') as f:`
			`unlinkable_fobjects.extend(f.read().splitlines())`

			`# Expand C objects`
			`c_lib = os.path.join(libdir, lib + '.cobjects')`
			`with open(c_lib, 'r') as f:`
			`objects.extend(f.read().splitlines())`

			`# Wrap unlinkable objects to a linkable one`
			`if unlinkable_fobjects:`
			`fobjects = [os.path.relpath(obj) for obj in unlinkable_fobjects]`
			`wrapped = fcompiler.wrap_unlinkable_objects(`
			`fobjects, output_dir=self.build_temp,`
			`extra_dll_dir=self.extra_dll_dir)`
			`objects.extend(wrapped)`

			`return objects, libraries`

			`def _libs_with_msvc_and_fortran(self, fcompiler, c_libraries,`
			`c_library_dirs):`
			`if fcompiler is None:`
			`return`

			`for libname in c_libraries:`
			`if libname.startswith('msvc'):`
			`continue`
			`fileexists = False`
			`for libdir in c_library_dirs or []:`
			`libfile = os.path.join(libdir, '%s.lib' % (libname))`
			`if os.path.isfile(libfile):`
			`fileexists = True`
			`break`
			`if fileexists:`
			`continue`
			`# make g77-compiled static libs available to MSVC`
			`fileexists = False`
			`for libdir in c_library_dirs:`
			`libfile = os.path.join(libdir, 'lib%s.a' % (libname))`
			`if os.path.isfile(libfile):`
			`# copy libname.a file to name.lib so that MSVC linker`
			`# can find it`
			`libfile2 = os.path.join(self.build_temp, libname + '.lib')`
			`copy_file(libfile, libfile2)`
			`if self.build_temp not in c_library_dirs:`
			`c_library_dirs.append(self.build_temp)`
			`fileexists = True`
			`break`
			`if fileexists:`
			`continue`
			`log.warn('could not find library %r in directories %s'`
			`% (libname, c_library_dirs))`

			`# Always use system linker when using MSVC compiler.`
			`f_lib_dirs = []`
			`for dir in fcompiler.library_dirs:`
			`# correct path when compiling in Cygwin but with normal Win`
			`# Python`
			`if dir.startswith('/usr/lib'):`
			`try:`
			`dir = subprocess.check_output(['cygpath', '-w', dir])`
			`except (OSError, subprocess.CalledProcessError):`
			`pass`
			`else:`
			`dir = filepath_from_subprocess_output(dir)`
			`f_lib_dirs.append(dir)`
			`c_library_dirs.extend(f_lib_dirs)`

			`# make g77-compiled static libs available to MSVC`
			`for lib in fcompiler.libraries:`
			`if not lib.startswith('msvc'):`
			`c_libraries.append(lib)`
			`p = combine_paths(f_lib_dirs, 'lib' + lib + '.a')`
			`if p:`
			`dst_name = os.path.join(self.build_temp, lib + '.lib')`
			`if not os.path.isfile(dst_name):`
			`copy_file(p[0], dst_name)`
			`if self.build_temp not in c_library_dirs:`
			`c_library_dirs.append(self.build_temp)`

			`def get_source_files(self):`
			`self.check_extensions_list(self.extensions)`
			`filenames = []`
			`for ext in self.extensions:`
			`filenames.extend(get_ext_source_files(ext))`
			`return filenames`

			`def get_outputs(self):`
			`self.check_extensions_list(self.extensions)`

			`outputs = []`
			`for ext in self.extensions:`
			`if not ext.sources:`
			`continue`
			`fullname = self.get_ext_fullname(ext.name)`
			`outputs.append(os.path.join(self.build_lib,`
			`self.get_ext_filename(fullname)))`
			`return outputs`