# reference: https://github.com/pybind/cmake_example import os import re import shutil import subprocess import sys from pathlib import Path import glob import platform import argparse from setuptools import Extension, find_packages, setup from setuptools.command.build_ext import build_ext # Convert distutils Windows platform specifiers to CMake -A arguments PLAT_TO_CMAKE = { "win32": "Win32", "win-amd64": "x64", "win-arm32": "ARM", "win-arm64": "ARM64", } # A CMakeExtension needs a sourcedir instead of a file list. # The name must be the _single_ output extension from the CMake build. # If you need multiple extensions, see scikit-build. class CMakeExtension(Extension): def __init__(self, name: str, sourcedir: str = "") -> None: super().__init__(name, sources=[]) self.sourcedir = os.fspath(Path(sourcedir).resolve()) class CMakeBuild(build_ext): def build_extension(self, ext: CMakeExtension) -> None: # Must be in this form due to bug in .resolve() only fixed in Python 3.10+ ext_fullpath = Path.cwd() / self.get_ext_fullpath(ext.name) extdir = ext_fullpath.parent.resolve() # Using this requires trailing slash for auto-detection & inclusion of # auxiliary "native" libs debug = int(os.environ.get("DEBUG", 0)) if self.debug is None else self.debug cfg = "Debug" if debug else "Release" # CMake lets you override the generator - we need to check this. # Can be set with Conda-Build, for example. cmake_generator = os.environ.get("CMAKE_GENERATOR", "") use_cuda = os.environ.get("USE_CUDA", "ON") # Set Python_EXECUTABLE instead if you use PYBIND11_FINDPYTHON # EXAMPLE_VERSION_INFO shows you how to pass a value into the C++ code # from Python. cmake_args = [ f"-DCMAKE_LIBRARY_OUTPUT_DIRECTORY={extdir}{os.sep}", f"-DPYTHON_EXECUTABLE={sys.executable}", f"-DCMAKE_BUILD_TYPE={cfg}", # not used on MSVC, but no harm f"-DPY_API=ON", f"-DUSE_CUDA={use_cuda}", ] build_args = [] # Adding CMake arguments set as environment variable # (needed e.g. to build for ARM OSx on conda-forge) if "CMAKE_ARGS" in os.environ: cmake_args += [item for item in os.environ["CMAKE_ARGS"].split(" ") if item] if self.compiler.compiler_type != "msvc": # Using Ninja-build since it a) is available as a wheel and b) # multithreads automatically. MSVC would require all variables be # exported for Ninja to pick it up, which is a little tricky to do. # Users can override the generator with CMAKE_GENERATOR in CMake # 3.15+. if not cmake_generator or cmake_generator == "Ninja": try: import ninja ninja_executable_path = Path(ninja.BIN_DIR) / "ninja" cmake_args += [ "-GNinja", f"-DCMAKE_MAKE_PROGRAM:FILEPATH={ninja_executable_path}", ] except ImportError: pass else: # Single config generators are handled "normally" single_config = any(x in cmake_generator for x in {"NMake", "Ninja"}) # CMake allows an arch-in-generator style for backward compatibility contains_arch = any(x in cmake_generator for x in {"ARM", "Win64"}) # Specify the arch if using MSVC generator, but only if it doesn't # contain a backward-compatibility arch spec already in the # generator name. if not single_config and not contains_arch: cmake_args += ["-A", PLAT_TO_CMAKE[self.plat_name]] # Multi-config generators have a different way to specify configs if not single_config: cmake_args += [f"-DCMAKE_LIBRARY_OUTPUT_DIRECTORY_{cfg.upper()}={extdir}"] build_args += ["--config", cfg] if sys.platform.startswith("darwin"): # Cross-compile support for macOS - respect ARCHFLAGS if set archs = re.findall(r"-arch (\S+)", os.environ.get("ARCHFLAGS", "")) if archs: cmake_args += ["-DCMAKE_OSX_ARCHITECTURES={}".format(";".join(archs))] # Set CMAKE_BUILD_PARALLEL_LEVEL to control the parallel build level # across all generators. # if "CMAKE_BUILD_PARALLEL_LEVEL" not in os.environ: # # self.parallel is a Python 3 only way to set parallel jobs by hand # # using -j in the build_ext call, not supported by pip or PyPA-build. # if hasattr(self, "parallel") and self.parallel: # # CMake 3.12+ only. # build_args += [f"-j{self.parallel}"] # Compile in parallel by default build_args += [f"-j"] build_temp = Path(self.build_temp) / ext.name if not build_temp.exists(): build_temp.mkdir(parents=True) subprocess.run(["cmake", ext.sourcedir, *cmake_args], cwd=build_temp, check=True) subprocess.run(["cmake", "--build", ".", *build_args], cwd=build_temp, check=True) HERE = Path(__file__).resolve().parent VERSION = re.search(r'__version__ = "(.*?)"', (HERE / "fastllm/__init__.py").read_text(encoding="utf-8")).group(1) setup( name='fastllm', version=VERSION, description='python api for fastllm', author='wildkid1024', author_email='wildkid1024@outlook.com', maintainer='', maintainer_email='', url='', long_description='', ext_modules=[CMakeExtension(name="pyfasltllm", sourcedir="..")], cmdclass={"build_ext": CMakeBuild}, packages = find_packages(), setup_requires=[""], install_requires=[""], python_requires='>=3.6', include_package_data=True, entry_points={ 'console_scripts':[ 'fastllm-convert = fastllm.convert:main' ] }, zip_safe=False, classifiers=[ 'AI::ChatGPT' 'AI::InfereEngine', 'LLM::ChatGLM', 'LLM::Moss', 'LLM::LLama' ] )