ai-content-maker/.venv/Lib/site-packages/numba/pycc/cc.py

from setuptools import distutils as dutils
from setuptools.command import build_ext
from setuptools.extension import Extension

import os
import shutil
import sys
import tempfile

from numba.core import typing, sigutils
from numba.core.compiler_lock import global_compiler_lock
from numba.pycc.compiler import ModuleCompiler, ExportEntry
from numba.pycc.platform import Toolchain
from numba import cext


dir_util = dutils.dir_util
log = dutils.log
extension_libs = cext.get_extension_libs()


class CC(object):
    """
    An ahead-of-time compiler to create extension modules that don't
    depend on Numba.
    """

    # NOTE: using ccache can speed up repetitive builds
    # (especially for the mixin modules)

    _mixin_sources = ['modulemixin.c',]  + extension_libs

    # -flto strips all unused helper functions, which 1) makes the
    # produced output much smaller and 2) can make the linking step faster.
    # (the Windows linker seems to do this by default, judging by the results)

    _extra_cflags = {
        # Comment out due to odd behavior with GCC 4.9+ with LTO
        # 'posix': ['-flto'],
        }

    _extra_ldflags = {
        # Comment out due to odd behavior with GCC 4.9+ with LTO
        # 'posix': ['-flto'],
        }

    def __init__(self, extension_name, source_module=None):
        if '.' in extension_name:
            raise ValueError("basename should be a simple module name, not "
                             "qualified name")

        self._basename = extension_name
        self._init_function = 'pycc_init_' + extension_name
        self._exported_functions = {}
        # Resolve source module name and directory
        f = sys._getframe(1)
        if source_module is None:
            dct = f.f_globals
            source_module = dct['__name__']
        elif hasattr(source_module, '__name__'):
            dct = source_module.__dict__
            source_module = source_module.__name__
        else:
            dct = sys.modules[source_module].__dict__

        self._source_path = dct.get('__file__', '')
        self._source_module = source_module
        self._toolchain = Toolchain()
        self._verbose = False
        # By default, output in directory of caller module
        self._output_dir = os.path.dirname(self._source_path)
        self._output_file = self._toolchain.get_ext_filename(extension_name)
        self._use_nrt = True
        self._target_cpu = ''

    @property
    def name(self):
        """
        The name of the extension module to create.
        """
        return self._basename

    @property
    def output_file(self):
        """
        The specific output file (a DLL) that will be generated.
        """
        return self._output_file

    @output_file.setter
    def output_file(self, value):
        self._output_file = value

    @property
    def output_dir(self):
        """
        The directory the output file will be put in.
        """
        return self._output_dir

    @output_dir.setter
    def output_dir(self, value):
        self._output_dir = value

    @property
    def use_nrt(self):
        return self._use_nrt

    @use_nrt.setter
    def use_nrt(self, value):
        self._use_nrt = value

    @property
    def target_cpu(self):
        """
        The target CPU model for code generation.
        """
        return self._target_cpu

    @target_cpu.setter
    def target_cpu(self, value):
        self._target_cpu = value

    @property
    def verbose(self):
        """
        Whether to display detailed information when compiling.
        """
        return self._verbose

    @verbose.setter
    def verbose(self, value):
        self._verbose = value

    def export(self, exported_name, sig):
        """
        Mark a function for exporting in the extension module.
        """
        fn_args, fn_retty = sigutils.normalize_signature(sig)
        sig = typing.signature(fn_retty, *fn_args)
        if exported_name in self._exported_functions:
            raise KeyError("duplicated export symbol %s" % (exported_name))

        def decorator(func):
            entry = ExportEntry(exported_name, sig, func)
            self._exported_functions[exported_name] = entry
            return func

        return decorator

    @property
    def _export_entries(self):
        return sorted(self._exported_functions.values(),
                      key=lambda entry: entry.symbol)

    def _get_mixin_sources(self):
        here = os.path.dirname(__file__)
        mixin_sources = self._mixin_sources[:]
        if self._use_nrt:
            mixin_sources.append('../core/runtime/nrt.cpp')
        return [os.path.join(here, f) for f in mixin_sources]

    def _get_mixin_defines(self):
        # Macro definitions required by modulemixin.c
        return [
            ('PYCC_MODULE_NAME', self._basename),
            ('PYCC_USE_NRT', int(self._use_nrt)),
            ]

    def _get_extra_cflags(self):
        extra_cflags = self._extra_cflags.get(sys.platform, [])
        if not extra_cflags:
            extra_cflags = self._extra_cflags.get(os.name, [])
        return extra_cflags

    def _get_extra_ldflags(self):
        extra_ldflags = self._extra_ldflags.get(sys.platform, [])
        if not extra_ldflags:
            extra_ldflags = self._extra_ldflags.get(os.name, [])
        # helperlib uses pthread on linux. make sure we are linking to it.
        if sys.platform.startswith("linux"):
            if "-pthread" not in extra_ldflags:
                extra_ldflags.append('-pthread')
        return extra_ldflags

    def _compile_mixins(self, build_dir):
        sources = self._get_mixin_sources()
        macros = self._get_mixin_defines()
        include_dirs = self._toolchain.get_python_include_dirs()

        extra_cflags = self._get_extra_cflags()
        # XXX distutils creates a whole subtree inside build_dir,
        # e.g. /tmp/test_pycc/home/antoine/numba/numba/pycc/modulemixin.o
        objects = self._toolchain.compile_objects(sources, build_dir,
                                                  include_dirs=include_dirs,
                                                  macros=macros,
                                                  extra_cflags=extra_cflags)
        return objects

    @global_compiler_lock
    def _compile_object_files(self, build_dir):
        compiler = ModuleCompiler(self._export_entries, self._basename,
                                self._use_nrt, cpu_name=self._target_cpu)
        compiler.external_init_function = self._init_function
        temp_obj = os.path.join(build_dir,
                                os.path.splitext(self._output_file)[0] + '.o')
        log.info("generating LLVM code for '%s' into %s",
                self._basename, temp_obj)
        compiler.write_native_object(temp_obj, wrap=True)
        return [temp_obj], compiler.dll_exports

    @global_compiler_lock
    def compile(self):
        """
        Compile the extension module.
        """
        self._toolchain.verbose = self.verbose
        build_dir = tempfile.mkdtemp(prefix='pycc-build-%s-' % self._basename)

        # Compile object file
        objects, dll_exports = self._compile_object_files(build_dir)

        # Compile mixins
        objects += self._compile_mixins(build_dir)

        # Then create shared library
        extra_ldflags = self._get_extra_ldflags()
        output_dll = os.path.join(self._output_dir, self._output_file)
        libraries = self._toolchain.get_python_libraries()
        library_dirs = self._toolchain.get_python_library_dirs()
        self._toolchain.link_shared(output_dll, objects,
                                    libraries, library_dirs,
                                    export_symbols=dll_exports,
                                    extra_ldflags=extra_ldflags)

        shutil.rmtree(build_dir)

    def distutils_extension(self, **kwargs):
        """
        Create a distutils extension object that can be used in your
        setup.py.
        """
        macros = kwargs.pop('macros', []) + self._get_mixin_defines()
        depends = kwargs.pop('depends', []) + [self._source_path]
        extra_compile_args = (kwargs.pop('extra_compile_args', [])
                              + self._get_extra_cflags())
        extra_link_args = (kwargs.pop('extra_link_args', [])
                           + self._get_extra_ldflags())
        include_dirs = (kwargs.pop('include_dirs', [])
                        + self._toolchain.get_python_include_dirs())
        libraries = (kwargs.pop('libraries', [])
                     + self._toolchain.get_python_libraries())
        library_dirs = (kwargs.pop('library_dirs', [])
                        + self._toolchain.get_python_library_dirs())
        python_package_path = self._source_module[:self._source_module.rfind('.')+1]

        ext = _CCExtension(name=python_package_path + self._basename,
                           sources=self._get_mixin_sources(),
                           depends=depends,
                           define_macros=macros,
                           include_dirs=include_dirs,
                           libraries=libraries,
                           library_dirs=library_dirs,
                           extra_compile_args=extra_compile_args,
                           extra_link_args=extra_link_args,
                           **kwargs)
        ext.monkey_patch_distutils()
        ext._cc = self
        return ext


class _CCExtension(Extension):
    """
    A Numba-specific Extension subclass to LLVM-compile pure Python code
    to an extension module.
    """

    _cc = None
    _distutils_monkey_patched = False

    def _prepare_object_files(self, build_ext):
        cc = self._cc
        dir_util.mkpath(os.path.join(build_ext.build_temp, *self.name.split('.')[:-1]))
        objects, _ = cc._compile_object_files(build_ext.build_temp)
        # Add generated object files for linking
        self.extra_objects = objects

    @classmethod
    def monkey_patch_distutils(cls):
        """
        Monkey-patch distutils with our own build_ext class knowing
        about pycc-compiled extensions modules.
        """
        if cls._distutils_monkey_patched:
            return

        _orig_build_ext = build_ext.build_ext

        class _CC_build_ext(_orig_build_ext):

            def build_extension(self, ext):
                if isinstance(ext, _CCExtension):
                    ext._prepare_object_files(self)

                _orig_build_ext.build_extension(self, ext)

        build_ext.build_ext = _CC_build_ext

        cls._distutils_monkey_patched = True
first commit 2024-05-03 04:18:51 +03:00			`from setuptools import distutils as dutils`
			`from setuptools.command import build_ext`
			`from setuptools.extension import Extension`

			`import os`
			`import shutil`
			`import sys`
			`import tempfile`

			`from numba.core import typing, sigutils`
			`from numba.core.compiler_lock import global_compiler_lock`
			`from numba.pycc.compiler import ModuleCompiler, ExportEntry`
			`from numba.pycc.platform import Toolchain`
			`from numba import cext`


			`dir_util = dutils.dir_util`
			`log = dutils.log`
			`extension_libs = cext.get_extension_libs()`


			`class CC(object):`
			`"""`
			`An ahead-of-time compiler to create extension modules that don't`
			`depend on Numba.`
			`"""`

			`# NOTE: using ccache can speed up repetitive builds`
			`# (especially for the mixin modules)`

			`_mixin_sources = ['modulemixin.c',] + extension_libs`

			`# -flto strips all unused helper functions, which 1) makes the`
			`# produced output much smaller and 2) can make the linking step faster.`
			`# (the Windows linker seems to do this by default, judging by the results)`

			`_extra_cflags = {`
			`# Comment out due to odd behavior with GCC 4.9+ with LTO`
			`# 'posix': ['-flto'],`
			`}`

			`_extra_ldflags = {`
			`# Comment out due to odd behavior with GCC 4.9+ with LTO`
			`# 'posix': ['-flto'],`
			`}`

			`def __init__(self, extension_name, source_module=None):`
			`if '.' in extension_name:`
			`raise ValueError("basename should be a simple module name, not "`
			`"qualified name")`

			`self._basename = extension_name`
			`self._init_function = 'pycc_init_' + extension_name`
			`self._exported_functions = {}`
			`# Resolve source module name and directory`
			`f = sys._getframe(1)`
			`if source_module is None:`
			`dct = f.f_globals`
			`source_module = dct['__name__']`
			`elif hasattr(source_module, '__name__'):`
			`dct = source_module.__dict__`
			`source_module = source_module.__name__`
			`else:`
			`dct = sys.modules[source_module].__dict__`

			`self._source_path = dct.get('__file__', '')`
			`self._source_module = source_module`
			`self._toolchain = Toolchain()`
			`self._verbose = False`
			`# By default, output in directory of caller module`
			`self._output_dir = os.path.dirname(self._source_path)`
			`self._output_file = self._toolchain.get_ext_filename(extension_name)`
			`self._use_nrt = True`
			`self._target_cpu = ''`

			`@property`
			`def name(self):`
			`"""`
			`The name of the extension module to create.`
			`"""`
			`return self._basename`

			`@property`
			`def output_file(self):`
			`"""`
			`The specific output file (a DLL) that will be generated.`
			`"""`
			`return self._output_file`

			`@output_file.setter`
			`def output_file(self, value):`
			`self._output_file = value`

			`@property`
			`def output_dir(self):`
			`"""`
			`The directory the output file will be put in.`
			`"""`
			`return self._output_dir`

			`@output_dir.setter`
			`def output_dir(self, value):`
			`self._output_dir = value`

			`@property`
			`def use_nrt(self):`
			`return self._use_nrt`

			`@use_nrt.setter`
			`def use_nrt(self, value):`
			`self._use_nrt = value`

			`@property`
			`def target_cpu(self):`
			`"""`
			`The target CPU model for code generation.`
			`"""`
			`return self._target_cpu`

			`@target_cpu.setter`
			`def target_cpu(self, value):`
			`self._target_cpu = value`

			`@property`
			`def verbose(self):`
			`"""`
			`Whether to display detailed information when compiling.`
			`"""`
			`return self._verbose`

			`@verbose.setter`
			`def verbose(self, value):`
			`self._verbose = value`

			`def export(self, exported_name, sig):`
			`"""`
			`Mark a function for exporting in the extension module.`
			`"""`
			`fn_args, fn_retty = sigutils.normalize_signature(sig)`
			`sig = typing.signature(fn_retty, *fn_args)`
			`if exported_name in self._exported_functions:`
			`raise KeyError("duplicated export symbol %s" % (exported_name))`

			`def decorator(func):`
			`entry = ExportEntry(exported_name, sig, func)`
			`self._exported_functions[exported_name] = entry`
			`return func`

			`return decorator`

			`@property`
			`def _export_entries(self):`
			`return sorted(self._exported_functions.values(),`
			`key=lambda entry: entry.symbol)`

			`def _get_mixin_sources(self):`
			`here = os.path.dirname(__file__)`
			`mixin_sources = self._mixin_sources[:]`
			`if self._use_nrt:`
			`mixin_sources.append('../core/runtime/nrt.cpp')`
			`return [os.path.join(here, f) for f in mixin_sources]`

			`def _get_mixin_defines(self):`
			`# Macro definitions required by modulemixin.c`
			`return [`
			`('PYCC_MODULE_NAME', self._basename),`
			`('PYCC_USE_NRT', int(self._use_nrt)),`
			`]`

			`def _get_extra_cflags(self):`
			`extra_cflags = self._extra_cflags.get(sys.platform, [])`
			`if not extra_cflags:`
			`extra_cflags = self._extra_cflags.get(os.name, [])`
			`return extra_cflags`

			`def _get_extra_ldflags(self):`
			`extra_ldflags = self._extra_ldflags.get(sys.platform, [])`
			`if not extra_ldflags:`
			`extra_ldflags = self._extra_ldflags.get(os.name, [])`
			`# helperlib uses pthread on linux. make sure we are linking to it.`
			`if sys.platform.startswith("linux"):`
			`if "-pthread" not in extra_ldflags:`
			`extra_ldflags.append('-pthread')`
			`return extra_ldflags`

			`def _compile_mixins(self, build_dir):`
			`sources = self._get_mixin_sources()`
			`macros = self._get_mixin_defines()`
			`include_dirs = self._toolchain.get_python_include_dirs()`

			`extra_cflags = self._get_extra_cflags()`
			`# XXX distutils creates a whole subtree inside build_dir,`
			`# e.g. /tmp/test_pycc/home/antoine/numba/numba/pycc/modulemixin.o`
			`objects = self._toolchain.compile_objects(sources, build_dir,`
			`include_dirs=include_dirs,`
			`macros=macros,`
			`extra_cflags=extra_cflags)`
			`return objects`

			`@global_compiler_lock`
			`def _compile_object_files(self, build_dir):`
			`compiler = ModuleCompiler(self._export_entries, self._basename,`
			`self._use_nrt, cpu_name=self._target_cpu)`
			`compiler.external_init_function = self._init_function`
			`temp_obj = os.path.join(build_dir,`
			`os.path.splitext(self._output_file)[0] + '.o')`
			`log.info("generating LLVM code for '%s' into %s",`
			`self._basename, temp_obj)`
			`compiler.write_native_object(temp_obj, wrap=True)`
			`return [temp_obj], compiler.dll_exports`

			`@global_compiler_lock`
			`def compile(self):`
			`"""`
			`Compile the extension module.`
			`"""`
			`self._toolchain.verbose = self.verbose`
			`build_dir = tempfile.mkdtemp(prefix='pycc-build-%s-' % self._basename)`

			`# Compile object file`
			`objects, dll_exports = self._compile_object_files(build_dir)`

			`# Compile mixins`
			`objects += self._compile_mixins(build_dir)`

			`# Then create shared library`
			`extra_ldflags = self._get_extra_ldflags()`
			`output_dll = os.path.join(self._output_dir, self._output_file)`
			`libraries = self._toolchain.get_python_libraries()`
			`library_dirs = self._toolchain.get_python_library_dirs()`
			`self._toolchain.link_shared(output_dll, objects,`
			`libraries, library_dirs,`
			`export_symbols=dll_exports,`
			`extra_ldflags=extra_ldflags)`

			`shutil.rmtree(build_dir)`

			`def distutils_extension(self, **kwargs):`
			`"""`
			`Create a distutils extension object that can be used in your`
			`setup.py.`
			`"""`
			`macros = kwargs.pop('macros', []) + self._get_mixin_defines()`
			`depends = kwargs.pop('depends', []) + [self._source_path]`
			`extra_compile_args = (kwargs.pop('extra_compile_args', [])`
			`+ self._get_extra_cflags())`
			`extra_link_args = (kwargs.pop('extra_link_args', [])`
			`+ self._get_extra_ldflags())`
			`include_dirs = (kwargs.pop('include_dirs', [])`
			`+ self._toolchain.get_python_include_dirs())`
			`libraries = (kwargs.pop('libraries', [])`
			`+ self._toolchain.get_python_libraries())`
			`library_dirs = (kwargs.pop('library_dirs', [])`
			`+ self._toolchain.get_python_library_dirs())`
			`python_package_path = self._source_module[:self._source_module.rfind('.')+1]`

			`ext = _CCExtension(name=python_package_path + self._basename,`
			`sources=self._get_mixin_sources(),`
			`depends=depends,`
			`define_macros=macros,`
			`include_dirs=include_dirs,`
			`libraries=libraries,`
			`library_dirs=library_dirs,`
			`extra_compile_args=extra_compile_args,`
			`extra_link_args=extra_link_args,`
			`**kwargs)`
			`ext.monkey_patch_distutils()`
			`ext._cc = self`
			`return ext`


			`class _CCExtension(Extension):`
			`"""`
			`A Numba-specific Extension subclass to LLVM-compile pure Python code`
			`to an extension module.`
			`"""`

			`_cc = None`
			`_distutils_monkey_patched = False`

			`def _prepare_object_files(self, build_ext):`
			`cc = self._cc`
			`dir_util.mkpath(os.path.join(build_ext.build_temp, *self.name.split('.')[:-1]))`
			`objects, _ = cc._compile_object_files(build_ext.build_temp)`
			`# Add generated object files for linking`
			`self.extra_objects = objects`

			`@classmethod`
			`def monkey_patch_distutils(cls):`
			`"""`
			`Monkey-patch distutils with our own build_ext class knowing`
			`about pycc-compiled extensions modules.`
			`"""`
			`if cls._distutils_monkey_patched:`
			`return`

			`_orig_build_ext = build_ext.build_ext`

			`class _CC_build_ext(_orig_build_ext):`

			`def build_extension(self, ext):`
			`if isinstance(ext, _CCExtension):`
			`ext._prepare_object_files(self)`

			`_orig_build_ext.build_extension(self, ext)`

			`build_ext.build_ext = _CC_build_ext`

			`cls._distutils_monkey_patched = True`