# mypy: allow-untyped-defs # This CPP JIT builder is designed to support both Windows and Linux OS. # The design document please check this RFC: https://github.com/pytorch/pytorch/issues/124245 import copy import errno import functools import logging import os import platform import re import shlex import shutil import subprocess import sys import sysconfig import warnings from pathlib import Path from typing import List, Sequence, Tuple, Union import torch from torch._inductor import config, exc from torch._inductor.codecache import ( _get_python_include_dirs, _LINKER_SCRIPT, _transform_cuda_paths, get_lock_dir, invalid_vec_isa, LOCK_TIMEOUT, VecISA, ) from torch._inductor.runtime.runtime_utils import cache_dir if config.is_fbcode(): from triton.fb import build_paths # noqa: F401 from torch._inductor.fb.utils import ( log_global_cache_errors, log_global_cache_stats, log_global_cache_vals, use_global_cache, ) else: def log_global_cache_errors(*args, **kwargs): pass def log_global_cache_stats(*args, **kwargs): pass def log_global_cache_vals(*args, **kwargs): pass def use_global_cache() -> bool: return False # Windows need setup a temp dir to store .obj files. _BUILD_TEMP_DIR = "CxxBuild" # initialize variables for compilation _IS_LINUX = sys.platform.startswith("linux") _IS_MACOS = sys.platform.startswith("darwin") _IS_WINDOWS = sys.platform == "win32" log = logging.getLogger(__name__) @functools.lru_cache(1) def cpp_compiler_search(search: str) -> str: for cxx in search: try: if cxx is None: # gxx package is only available for Linux # according to https://anaconda.org/conda-forge/gxx/ if sys.platform != "linux": continue # Do not install GXX by default if not os.getenv("TORCH_INDUCTOR_INSTALL_GXX"): continue from filelock import FileLock lock_dir = get_lock_dir() lock = FileLock( os.path.join(lock_dir, "g++.lock"), timeout=LOCK_TIMEOUT ) with lock: cxx = install_gcc_via_conda() subprocess.check_output([cxx, "--version"]) return cxx except (subprocess.SubprocessError, FileNotFoundError, ImportError): continue raise exc.InvalidCxxCompiler() # noqa: RSE102 def install_gcc_via_conda() -> str: """On older systems, this is a quick way to get a modern compiler""" prefix = os.path.join(cache_dir(), "gcc") cxx_path = os.path.join(prefix, "bin", "g++") if not os.path.exists(cxx_path): log.info("Downloading GCC via conda") conda = os.environ.get("CONDA_EXE", "conda") if conda is None: conda = shutil.which("conda") if conda is not None: subprocess.check_call( [ conda, "create", f"--prefix={prefix}", "--channel=conda-forge", "--quiet", "-y", "python=3.8", "gxx", ], stdout=subprocess.PIPE, ) return cxx_path def _get_cpp_compiler() -> str: if _IS_WINDOWS: compiler = os.environ.get("CXX", "cl") else: if config.is_fbcode(): return build_paths.cc() if isinstance(config.cpp.cxx, (list, tuple)): search = tuple(config.cpp.cxx) else: search = (config.cpp.cxx,) compiler = cpp_compiler_search(search) return compiler def _is_gcc(cpp_compiler) -> bool: return bool(re.search(r"(gcc|g\+\+)", cpp_compiler)) def is_gcc() -> bool: return _is_gcc(_get_cpp_compiler()) def _is_clang(cpp_compiler) -> bool: # Mac OS apple clang maybe named as gcc, need check compiler info. if sys.platform == "darwin": return is_apple_clang(cpp_compiler) return bool(re.search(r"(clang|clang\+\+)", cpp_compiler)) def is_clang() -> bool: compiler = _get_cpp_compiler() return _is_clang(compiler) @functools.lru_cache(None) def is_apple_clang(cpp_compiler) -> bool: version_string = subprocess.check_output([cpp_compiler, "--version"]).decode("utf8") return "Apple" in version_string.splitlines()[0] def _append_list(dest_list: List[str], src_list: List[str]): for item in src_list: dest_list.append(copy.deepcopy(item)) def _remove_duplication_in_list(orig_list: List[str]) -> List[str]: new_list: List[str] = [] for item in orig_list: if item not in new_list: new_list.append(item) return new_list def _create_if_dir_not_exist(path_dir): if not os.path.exists(path_dir): try: Path(path_dir).mkdir(parents=True, exist_ok=True) except OSError as exc: # Guard against race condition if exc.errno != errno.EEXIST: raise RuntimeError( # noqa: TRY200 (Use `raise from`) f"Fail to create path {path_dir}" ) def _remove_dir(path_dir): if os.path.exists(path_dir): for root, dirs, files in os.walk(path_dir, topdown=False): for name in files: file_path = os.path.join(root, name) os.remove(file_path) for name in dirs: dir_path = os.path.join(root, name) os.rmdir(dir_path) os.rmdir(path_dir) def run_command_line(cmd_line, cwd=None): cmd = shlex.split(cmd_line) try: status = subprocess.check_output(args=cmd, cwd=cwd, stderr=subprocess.STDOUT) except subprocess.CalledProcessError as e: output = e.output.decode("utf-8") openmp_problem = "'omp.h' file not found" in output or "libomp" in output if openmp_problem and sys.platform == "darwin": instruction = ( "\n\nOpenMP support not found. Please try one of the following solutions:\n" "(1) Set the `CXX` environment variable to a compiler other than Apple clang++/g++ " "that has builtin OpenMP support;\n" "(2) install OpenMP via conda: `conda install llvm-openmp`;\n" "(3) install libomp via brew: `brew install libomp`;\n" "(4) manually setup OpenMP and set the `OMP_PREFIX` environment variable to point to a path" " with `include/omp.h` under it." ) output += instruction raise exc.CppCompileError(cmd, output) from e return status class BuildOptionsBase: """ This is the Base class for store cxx build options, as a template. Acturally, to build a cxx shared library. We just need to select a compiler and maintains the suitable args. """ def __init__(self) -> None: self._compiler = "" self._definations: List[str] = [] self._include_dirs: List[str] = [] self._cflags: List[str] = [] self._ldflags: List[str] = [] self._libraries_dirs: List[str] = [] self._libraries: List[str] = [] # Some args is hard to abstract to OS compatable, passthough it directly. self._passthough_args: List[str] = [] self._aot_mode: bool = False self._use_absolute_path: bool = False self._compile_only: bool = False def _remove_duplicate_options(self): self._definations = _remove_duplication_in_list(self._definations) self._include_dirs = _remove_duplication_in_list(self._include_dirs) self._cflags = _remove_duplication_in_list(self._cflags) self._ldflags = _remove_duplication_in_list(self._ldflags) self._libraries_dirs = _remove_duplication_in_list(self._libraries_dirs) self._libraries = _remove_duplication_in_list(self._libraries) self._passthough_args = _remove_duplication_in_list(self._passthough_args) def get_compiler(self) -> str: return self._compiler def get_definations(self) -> List[str]: return self._definations def get_include_dirs(self) -> List[str]: return self._include_dirs def get_cflags(self) -> List[str]: return self._cflags def get_ldflags(self) -> List[str]: return self._ldflags def get_libraries_dirs(self) -> List[str]: return self._libraries_dirs def get_libraries(self) -> List[str]: return self._libraries def get_passthough_args(self) -> List[str]: return self._passthough_args def get_aot_mode(self) -> bool: return self._aot_mode def get_use_absolute_path(self) -> bool: return self._use_absolute_path def get_compile_only(self) -> bool: return self._compile_only def _get_warning_all_cflag(warning_all: bool = True) -> List[str]: if not _IS_WINDOWS: return ["Wall"] if warning_all else [] else: return [] def _get_cpp_std_cflag(std_num: str = "c++17") -> List[str]: if _IS_WINDOWS: return [f"std:{std_num}"] else: return [f"std={std_num}"] def _get_linux_cpp_cflags(cpp_compiler) -> List[str]: if not _IS_WINDOWS: cflags = ["Wno-unused-variable", "Wno-unknown-pragmas"] if _is_clang(cpp_compiler): cflags.append("Werror=ignored-optimization-argument") return cflags else: return [] def _get_optimization_cflags() -> List[str]: if _IS_WINDOWS: return ["O2"] else: cflags = ["O0", "g"] if config.aot_inductor.debug_compile else ["O3", "DNDEBUG"] cflags.append("ffast-math") cflags.append("fno-finite-math-only") if not config.cpp.enable_unsafe_math_opt_flag: cflags.append("fno-unsafe-math-optimizations") if not config.cpp.enable_floating_point_contract_flag: cflags.append("ffp-contract=off") if sys.platform != "darwin": # https://stackoverflow.com/questions/65966969/why-does-march-native-not-work-on-apple-m1 # `-march=native` is unrecognized option on M1 if platform.machine() == "ppc64le": cflags.append("mcpu=native") else: cflags.append("march=native") return cflags def _get_shared_cflag(compile_only: bool) -> List[str]: if _IS_WINDOWS: """ MSVC `/MD` using python `ucrtbase.dll` lib as runtime. https://learn.microsoft.com/en-us/cpp/c-runtime-library/crt-library-features?view=msvc-170 """ SHARED_FLAG = ["DLL", "MD"] else: if compile_only: return ["fPIC"] if platform.system() == "Darwin" and "clang" in _get_cpp_compiler(): # This causes undefined symbols to behave the same as linux return ["shared", "fPIC", "undefined dynamic_lookup"] else: return ["shared", "fPIC"] return SHARED_FLAG def get_cpp_options( cpp_compiler, compile_only: bool, warning_all: bool = True, extra_flags: Sequence[str] = (), ): definations: List[str] = [] include_dirs: List[str] = [] cflags: List[str] = [] ldflags: List[str] = [] libraries_dirs: List[str] = [] libraries: List[str] = [] passthough_args: List[str] = [] cflags = ( _get_shared_cflag(compile_only) + _get_optimization_cflags() + _get_warning_all_cflag(warning_all) + _get_cpp_std_cflag() + _get_linux_cpp_cflags(cpp_compiler) ) passthough_args.append(" ".join(extra_flags)) return ( definations, include_dirs, cflags, ldflags, libraries_dirs, libraries, passthough_args, ) class CppOptions(BuildOptionsBase): """ This class is inherited from BuildOptionsBase, and as cxx build options. This option need contains basic cxx build option, which contains: 1. OS related args. 2. Toolchains related args. 3. Cxx standard related args. Note: 1. This Options is good for assist modules build, such as x86_isa_help. """ def __init__( self, compile_only: bool, warning_all: bool = True, extra_flags: Sequence[str] = (), use_absolute_path: bool = False, ) -> None: super().__init__() self._compiler = _get_cpp_compiler() self._use_absolute_path = use_absolute_path self._compile_only = compile_only ( definations, include_dirs, cflags, ldflags, libraries_dirs, libraries, passthough_args, ) = get_cpp_options( cpp_compiler=self._compiler, compile_only=compile_only, extra_flags=extra_flags, warning_all=warning_all, ) _append_list(self._definations, definations) _append_list(self._include_dirs, include_dirs) _append_list(self._cflags, cflags) _append_list(self._ldflags, ldflags) _append_list(self._libraries_dirs, libraries_dirs) _append_list(self._libraries, libraries) _append_list(self._passthough_args, passthough_args) self._remove_duplicate_options() def _get_glibcxx_abi_build_flags() -> List[str]: if not _IS_WINDOWS: return ["-D_GLIBCXX_USE_CXX11_ABI=" + str(int(torch._C._GLIBCXX_USE_CXX11_ABI))] else: return [] def _get_torch_cpp_wrapper_defination() -> List[str]: return ["TORCH_INDUCTOR_CPP_WRAPPER"] def _use_custom_generated_macros() -> List[str]: return [" C10_USING_CUSTOM_GENERATED_MACROS"] def _use_fb_internal_macros() -> List[str]: if not _IS_WINDOWS: if config.is_fbcode(): fb_internal_macros = [ "C10_USE_GLOG", "C10_USE_MINIMAL_GLOG", "C10_DISABLE_TENSORIMPL_EXTENSIBILITY", ] # TODO: this is to avoid FC breakage for fbcode. When using newly # generated model.so on an older verion of PyTorch, need to use # the v1 version for aoti_torch_create_tensor_from_blob create_tensor_from_blob_v1 = "AOTI_USE_CREATE_TENSOR_FROM_BLOB_V1" fb_internal_macros.append(create_tensor_from_blob_v1) # TODO: remove comments later: # Moved to _get_openmp_args # openmp_lib = build_paths.openmp_lib() # return [f"-Wp,-fopenmp {openmp_lib} {preprocessor_flags}"] return fb_internal_macros else: return [] else: return [] def _setup_standard_sys_libs( cpp_compiler, aot_mode: bool, use_absolute_path: bool, ): cflags: List[str] = [] include_dirs: List[str] = [] passthough_args: List[str] = [] if _IS_WINDOWS: return cflags, include_dirs, passthough_args if config.is_fbcode(): cflags.append("nostdinc") include_dirs.append(build_paths.sleef()) include_dirs.append(build_paths.cc_include()) include_dirs.append(build_paths.libgcc()) include_dirs.append(build_paths.libgcc_arch()) include_dirs.append(build_paths.libgcc_backward()) include_dirs.append(build_paths.glibc()) include_dirs.append(build_paths.linux_kernel()) include_dirs.append("include") if aot_mode and not use_absolute_path: linker_script = _LINKER_SCRIPT else: linker_script = os.path.basename(_LINKER_SCRIPT) if _is_clang(cpp_compiler): passthough_args.append(" --rtlib=compiler-rt") passthough_args.append(" -fuse-ld=lld") passthough_args.append(f" -Wl,--script={linker_script}") passthough_args.append(" -B" + build_paths.glibc_lib()) passthough_args.append(" -L" + build_paths.glibc_lib()) return cflags, include_dirs, passthough_args @functools.lru_cache def _cpp_prefix_path() -> str: from torch._inductor.codecache import write # TODO path = Path(Path(__file__).parent).parent / "codegen/cpp_prefix.h" with path.open() as f: content = f.read() _, filename = write( content, "h", ) return filename def _get_build_args_of_chosen_isa(vec_isa: VecISA): macros = [] build_flags = [] if vec_isa != invalid_vec_isa: # Add Windows support later. for x in vec_isa.build_macro(): macros.append(copy.deepcopy(x)) build_flags = [vec_isa.build_arch_flags()] if config.is_fbcode(): cap = str(vec_isa).upper() macros = [ f"CPU_CAPABILITY={cap}", f"CPU_CAPABILITY_{cap}", f"HAVE_{cap}_CPU_DEFINITION", ] return macros, build_flags def _get_torch_related_args(include_pytorch: bool, aot_mode: bool): from torch.utils.cpp_extension import _TORCH_PATH, TORCH_LIB_PATH include_dirs = [ os.path.join(_TORCH_PATH, "include"), os.path.join(_TORCH_PATH, "include", "torch", "csrc", "api", "include"), # Some internal (old) Torch headers don't properly prefix their includes, # so we need to pass -Itorch/lib/include/TH as well. os.path.join(_TORCH_PATH, "include", "TH"), os.path.join(_TORCH_PATH, "include", "THC"), ] libraries_dirs = [TORCH_LIB_PATH] libraries = [] if sys.platform != "darwin" and not config.is_fbcode(): libraries = ["torch", "torch_cpu"] if not aot_mode: libraries.append("torch_python") if _IS_WINDOWS: libraries.append("sleef") # Unconditionally import c10 for non-abi-compatible mode to use TORCH_CHECK - See PyTorch #108690 if not config.abi_compatible: libraries.append("c10") libraries_dirs.append(TORCH_LIB_PATH) return include_dirs, libraries_dirs, libraries def _get_python_related_args(): python_include_dirs = _get_python_include_dirs() python_include_path = sysconfig.get_path( "include", scheme="nt" if _IS_WINDOWS else "posix_prefix" ) if python_include_path is not None: python_include_dirs.append(python_include_path) if _IS_WINDOWS: python_path = os.path.dirname(sys.executable) python_lib_path = [os.path.join(python_path, "libs")] else: python_lib_path = [sysconfig.get_config_var("LIBDIR")] if config.is_fbcode(): python_include_dirs.append(build_paths.python()) return python_include_dirs, python_lib_path def _get_openmp_args(cpp_compiler): cflags: List[str] = [] ldflags: List[str] = [] include_dir_paths: List[str] = [] lib_dir_paths: List[str] = [] libs: List[str] = [] passthough_args: List[str] = [] if _IS_MACOS: # Per https://mac.r-project.org/openmp/ right way to pass `openmp` flags to MacOS is via `-Xclang` cflags.append("Xclang") cflags.append("fopenmp") from torch._inductor.codecache import ( homebrew_libomp, is_conda_llvm_openmp_installed, ) # only Apple builtin compilers (Apple Clang++) require openmp omp_available = not is_apple_clang(cpp_compiler) # check the `OMP_PREFIX` environment first omp_prefix = os.getenv("OMP_PREFIX") if omp_prefix is not None: header_path = os.path.join(omp_prefix, "include", "omp.h") valid_env = os.path.exists(header_path) if valid_env: include_dir_paths.append(os.path.join(omp_prefix, "include")) lib_dir_paths.append(os.path.join(omp_prefix, "lib")) else: warnings.warn("environment variable `OMP_PREFIX` is invalid.") omp_available = omp_available or valid_env if not omp_available: libs.append("omp") # prefer to use openmp from `conda install llvm-openmp` conda_prefix = os.getenv("CONDA_PREFIX") if not omp_available and conda_prefix is not None: omp_available = is_conda_llvm_openmp_installed() if omp_available: conda_lib_path = os.path.join(conda_prefix, "lib") include_dir_paths.append(os.path.join(conda_prefix, "include")) lib_dir_paths.append(conda_lib_path) # Prefer Intel OpenMP on x86 machine if os.uname().machine == "x86_64" and os.path.exists( os.path.join(conda_lib_path, "libiomp5.dylib") ): libs.append("iomp5") # next, try to use openmp from `brew install libomp` if not omp_available: omp_available, libomp_path = homebrew_libomp() if omp_available: include_dir_paths.append(os.path.join(libomp_path, "include")) lib_dir_paths.append(os.path.join(libomp_path, "lib")) # if openmp is still not available, we let the compiler to have a try, # and raise error together with instructions at compilation error later elif _IS_WINDOWS: # /openmp, /openmp:llvm # llvm on Windows, new openmp: https://devblogs.microsoft.com/cppblog/msvc-openmp-update/ # msvc openmp: https://learn.microsoft.com/zh-cn/cpp/build/reference/openmp-enable-openmp-2-0-support?view=msvc-170 cflags.append("openmp") cflags.append("openmp:experimental") # MSVC CL else: if config.is_fbcode(): include_dir_paths.append(build_paths.openmp()) openmp_lib = build_paths.openmp_lib() fb_openmp_extra_flags = f"-Wp,-fopenmp {openmp_lib}" passthough_args.append(fb_openmp_extra_flags) libs.append("omp") else: if _is_clang(cpp_compiler): # TODO: fix issue, can't find omp.h cflags.append("fopenmp") libs.append("gomp") else: cflags.append("fopenmp") libs.append("gomp") return cflags, ldflags, include_dir_paths, lib_dir_paths, libs, passthough_args def get_mmap_self_macro(use_mmap_weights: bool) -> List[str]: macros = [] if use_mmap_weights: macros.append(" USE_MMAP_SELF") return macros def get_cpp_torch_options( cpp_compiler, vec_isa: VecISA, include_pytorch: bool, aot_mode: bool, compile_only: bool, use_absolute_path: bool, use_mmap_weights: bool, ): definations: List[str] = [] include_dirs: List[str] = [] cflags: List[str] = [] ldflags: List[str] = [] libraries_dirs: List[str] = [] libraries: List[str] = [] passthough_args: List[str] = [] torch_cpp_wrapper_definations = _get_torch_cpp_wrapper_defination() use_custom_generated_macros_definations = _use_custom_generated_macros() ( sys_libs_cflags, sys_libs_include_dirs, sys_libs_passthough_args, ) = _setup_standard_sys_libs(cpp_compiler, aot_mode, use_absolute_path) isa_macros, isa_ps_args_build_flags = _get_build_args_of_chosen_isa(vec_isa) ( torch_include_dirs, torch_libraries_dirs, torch_libraries, ) = _get_torch_related_args(include_pytorch=include_pytorch, aot_mode=aot_mode) python_include_dirs, python_libraries_dirs = _get_python_related_args() ( omp_cflags, omp_ldflags, omp_include_dir_paths, omp_lib_dir_paths, omp_lib, omp_passthough_args, ) = _get_openmp_args(cpp_compiler) cxx_abi_passthough_args = _get_glibcxx_abi_build_flags() fb_macro_passthough_args = _use_fb_internal_macros() mmap_self_macros = get_mmap_self_macro(use_mmap_weights) definations = ( torch_cpp_wrapper_definations + use_custom_generated_macros_definations + isa_macros + fb_macro_passthough_args + mmap_self_macros ) include_dirs = ( sys_libs_include_dirs + python_include_dirs + torch_include_dirs + omp_include_dir_paths ) cflags = sys_libs_cflags + omp_cflags ldflags = omp_ldflags libraries_dirs = python_libraries_dirs + torch_libraries_dirs + omp_lib_dir_paths libraries = torch_libraries + omp_lib passthough_args = ( sys_libs_passthough_args + isa_ps_args_build_flags + cxx_abi_passthough_args + omp_passthough_args ) return ( definations, include_dirs, cflags, ldflags, libraries_dirs, libraries, passthough_args, ) class CppTorchOptions(CppOptions): """ This class is inherited from CppTorchOptions, which automatic contains base cxx build options. And then it will maintains torch related build args. 1. Torch include_directories, libraries, libraries_directories. 2. Python include_directories, libraries, libraries_directories. 3. OpenMP related. 4. Torch MACROs. 5. MISC """ def __init__( self, vec_isa: VecISA, include_pytorch: bool = False, warning_all: bool = True, aot_mode: bool = False, compile_only: bool = False, use_absolute_path: bool = False, use_mmap_weights: bool = False, shared: bool = True, extra_flags: Sequence[str] = (), ) -> None: super().__init__( compile_only=compile_only, warning_all=warning_all, extra_flags=extra_flags, use_absolute_path=use_absolute_path, ) self._aot_mode = aot_mode ( torch_definations, torch_include_dirs, torch_cflags, torch_ldflags, torch_libraries_dirs, torch_libraries, torch_passthough_args, ) = get_cpp_torch_options( cpp_compiler=self._compiler, vec_isa=vec_isa, include_pytorch=include_pytorch, aot_mode=aot_mode, compile_only=compile_only, use_absolute_path=use_absolute_path, use_mmap_weights=use_mmap_weights, ) if compile_only: torch_libraries_dirs = [] torch_libraries = [] _append_list(self._definations, torch_definations) _append_list(self._include_dirs, torch_include_dirs) _append_list(self._cflags, torch_cflags) _append_list(self._ldflags, torch_ldflags) _append_list(self._libraries_dirs, torch_libraries_dirs) _append_list(self._libraries, torch_libraries) _append_list(self._passthough_args, torch_passthough_args) self._remove_duplicate_options() def get_cpp_torch_cuda_options(cuda: bool, aot_mode: bool = False): definations: List[str] = [] include_dirs: List[str] = [] cflags: List[str] = [] ldflags: List[str] = [] libraries_dirs: List[str] = [] libraries: List[str] = [] passthough_args: List[str] = [] if ( config.is_fbcode() and "CUDA_HOME" not in os.environ and "CUDA_PATH" not in os.environ ): os.environ["CUDA_HOME"] = build_paths.cuda() from torch.utils import cpp_extension include_dirs = cpp_extension.include_paths(cuda) libraries_dirs = cpp_extension.library_paths(cuda) if cuda: definations.append(" USE_ROCM" if torch.version.hip else " USE_CUDA") if torch.version.hip is not None: if config.is_fbcode(): libraries += ["amdhip64"] else: libraries += ["c10_hip", "torch_hip"] definations.append(" __HIP_PLATFORM_AMD__") else: if config.is_fbcode(): libraries += ["cuda"] else: if config.is_fbcode(): libraries += ["cuda"] else: libraries += ["c10_cuda", "cuda", "torch_cuda"] if aot_mode: cpp_prefix_include_dir = [f"{os.path.dirname(_cpp_prefix_path())}"] include_dirs += cpp_prefix_include_dir if cuda and torch.version.hip is None: _transform_cuda_paths(libraries_dirs) if config.is_fbcode(): if torch.version.hip is not None: include_dirs.append(os.path.join(build_paths.rocm(), "include")) else: include_dirs.append(os.path.join(build_paths.cuda(), "include")) if aot_mode and cuda and config.is_fbcode(): if torch.version.hip is None: # TODO: make static link better on Linux. passthough_args = ["-Wl,-Bstatic -lcudart_static -Wl,-Bdynamic"] return ( definations, include_dirs, cflags, ldflags, libraries_dirs, libraries, passthough_args, ) class CppTorchCudaOptions(CppTorchOptions): """ This class is inherited from CppTorchOptions, which automatic contains base cxx build options and torch common build options. And then it will maintains cuda device related build args. """ def __init__( self, vec_isa: VecISA, include_pytorch: bool = False, cuda: bool = True, aot_mode: bool = False, compile_only: bool = False, use_absolute_path: bool = False, use_mmap_weights: bool = False, shared: bool = True, extra_flags: Sequence[str] = (), ) -> None: super().__init__( vec_isa=vec_isa, include_pytorch=include_pytorch, aot_mode=aot_mode, compile_only=compile_only, use_absolute_path=use_absolute_path, use_mmap_weights=use_mmap_weights, extra_flags=extra_flags, ) cuda_definations: List[str] = [] cuda_include_dirs: List[str] = [] cuda_cflags: List[str] = [] cuda_ldflags: List[str] = [] cuda_libraries_dirs: List[str] = [] cuda_libraries: List[str] = [] cuda_passthough_args: List[str] = [] ( cuda_definations, cuda_include_dirs, cuda_cflags, cuda_ldflags, cuda_libraries_dirs, cuda_libraries, cuda_passthough_args, ) = get_cpp_torch_cuda_options(cuda=cuda, aot_mode=aot_mode) if compile_only: cuda_libraries_dirs = [] cuda_libraries = [] _append_list(self._definations, cuda_definations) _append_list(self._include_dirs, cuda_include_dirs) _append_list(self._cflags, cuda_cflags) _append_list(self._ldflags, cuda_ldflags) _append_list(self._libraries_dirs, cuda_libraries_dirs) _append_list(self._libraries, cuda_libraries) _append_list(self._passthough_args, cuda_passthough_args) self._remove_duplicate_options() def get_name_and_dir_from_output_file_path( aot_mode: bool, use_absolute_path: bool, file_path: str ): name_and_ext = os.path.basename(file_path) name, ext = os.path.splitext(name_and_ext) dir = os.path.dirname(file_path) if config.is_fbcode(): if not (aot_mode and not use_absolute_path): dir = "." return name, dir class CppBuilder: """ CppBuilder is a cpp jit builder, and it supports both Windows, Linux and MacOS. Args: name: 1. Build target name, the final target file will append extension type automatically. 2. Due to the CppBuilder is supports mutliple OS, it will maintains ext for OS difference. sources: Source code file list to be built. BuildOption: Build options to the builder. output_dir: 1. The output_dir the taget file will output to. 2. The default value is empty string, and then the use current dir as output dir. 3. Final target file: output_dir/name.ext """ def __get_python_module_ext(self) -> str: SHARED_LIB_EXT = ".pyd" if _IS_WINDOWS else ".so" return SHARED_LIB_EXT def __get_object_ext(self) -> str: EXT = ".obj" if _IS_WINDOWS else ".o" return EXT def __init__( self, name: str, sources: Union[str, List[str]], BuildOption: BuildOptionsBase, output_dir: str = "", ) -> None: self._compiler = "" self._cflags_args = "" self._definations_args = "" self._include_dirs_args = "" self._ldflags_args = "" self._libraries_dirs_args = "" self._libraries_args = "" self._passthough_parameters_args = "" self._output_dir = "" self._target_file = "" self._use_absolute_path: bool = False self._name = name # Code start here, initial self internal veriables firstly. self._compiler = BuildOption.get_compiler() self._use_absolute_path = BuildOption.get_use_absolute_path() if len(output_dir) == 0: self._output_dir = os.path.dirname(os.path.abspath(__file__)) else: self._output_dir = output_dir self._compile_only = BuildOption.get_compile_only() file_ext = ( self.__get_object_ext() if self._compile_only else self.__get_python_module_ext() ) self._target_file = os.path.join(self._output_dir, f"{self._name}{file_ext}") if isinstance(sources, str): sources = [sources] if config.is_fbcode(): if BuildOption.get_aot_mode() and not self._use_absolute_path: inp_name = sources # output process @ get_name_and_dir_from_output_file_path else: # We need to copy any absolute-path torch includes inp_name = [os.path.basename(i) for i in sources] self._target_file = os.path.basename(self._target_file) self._sources_args = " ".join(inp_name) else: self._sources_args = " ".join(sources) for cflag in BuildOption.get_cflags(): if _IS_WINDOWS: self._cflags_args += f"/{cflag} " else: self._cflags_args += f"-{cflag} " for defination in BuildOption.get_definations(): if _IS_WINDOWS: self._definations_args += f"/D {defination} " else: self._definations_args += f"-D {defination} " for inc_dir in BuildOption.get_include_dirs(): if _IS_WINDOWS: self._include_dirs_args += f"/I {inc_dir} " else: self._include_dirs_args += f"-I{inc_dir} " for ldflag in BuildOption.get_ldflags(): if _IS_WINDOWS: self._ldflags_args += f"/{ldflag} " else: self._ldflags_args += f"-{ldflag} " for lib_dir in BuildOption.get_libraries_dirs(): if _IS_WINDOWS: self._libraries_dirs_args += f'/LIBPATH:"{lib_dir}" ' else: self._libraries_dirs_args += f"-L{lib_dir} " for lib in BuildOption.get_libraries(): if _IS_WINDOWS: self._libraries_args += f'"{lib}.lib" ' else: self._libraries_args += f"-l{lib} " for passthough_arg in BuildOption.get_passthough_args(): self._passthough_parameters_args += f"{passthough_arg} " def get_command_line(self) -> str: def format_build_command( compiler, sources, include_dirs_args, definations_args, cflags_args, ldflags_args, libraries_args, libraries_dirs_args, passthougn_args, target_file, ): if _IS_WINDOWS: # https://learn.microsoft.com/en-us/cpp/build/walkthrough-compile-a-c-program-on-the-command-line?view=msvc-1704 # https://stackoverflow.com/a/31566153 cmd = ( f"{compiler} {include_dirs_args} {definations_args} {cflags_args} {sources} " f"{passthougn_args} /LD /Fe{target_file} /link {libraries_dirs_args} {libraries_args} {ldflags_args} " ) cmd = cmd.replace("\\", "/") else: compile_only_arg = "-c" if self._compile_only else "" cmd = re.sub( r"[ \n]+", " ", f""" {compiler} {sources} {definations_args} {cflags_args} {include_dirs_args} {passthougn_args} {ldflags_args} {libraries_args} {libraries_dirs_args} {compile_only_arg} -o {target_file} """, ).strip() return cmd command_line = format_build_command( compiler=self._compiler, sources=self._sources_args, include_dirs_args=self._include_dirs_args, definations_args=self._definations_args, cflags_args=self._cflags_args, ldflags_args=self._ldflags_args, libraries_args=self._libraries_args, libraries_dirs_args=self._libraries_dirs_args, passthougn_args=self._passthough_parameters_args, target_file=self._target_file, ) return command_line def get_target_file_path(self): return self._target_file def build(self) -> Tuple[int, str]: """ It is must need a temperary directory to store object files in Windows. After build completed, delete the temperary directory to save disk space. """ _create_if_dir_not_exist(self._output_dir) _build_tmp_dir = os.path.join( self._output_dir, f"{self._name}_{_BUILD_TEMP_DIR}" ) _create_if_dir_not_exist(_build_tmp_dir) build_cmd = self.get_command_line() status = run_command_line(build_cmd, cwd=_build_tmp_dir) _remove_dir(_build_tmp_dir) return status, self._target_file