# Copyright (c) 2022 PaddlePaddle Authors. All Rights Reserved. # # Licensed under the Apache License, Version 2.0 (the "License"); # you may not use this file except in compliance with the License. # You may obtain a copy of the License at # # http://www.apache.org/licenses/LICENSE-2.0 # # Unless required by applicable law or agreed to in writing, software # distributed under the License is distributed on an "AS IS" BASIS, # WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. # See the License for the specific language governing permissions and # limitations under the License. from __future__ import annotations import ctypes import errno import fnmatch import glob import multiprocessing import os import platform import re import shlex import shutil import subprocess import sys import time from contextlib import contextmanager from pathlib import Path from subprocess import CalledProcessError from setuptools import Command, Extension, setup from setuptools.command.develop import develop as DevelopCommandBase from setuptools.command.egg_info import egg_info from setuptools.command.install import install as InstallCommandBase from setuptools.command.install_lib import install_lib from setuptools.dist import Distribution python_version = platform.python_version() version_detail = sys.version_info version = str(version_detail[0]) + '.' + str(version_detail[1]) env_version = os.getenv("PY_VERSION", None) if version_detail < (3, 9): raise RuntimeError( f"Paddle only supports Python version >= 3.9 now," f"you are using Python {python_version}" ) elif env_version is None: print(f"export PY_VERSION = {version}") os.environ["PY_VERSION"] = python_version elif env_version != version: raise ValueError( f"You have set the PY_VERSION environment variable to {env_version}, but " f"your current Python version is {version}, " f"Please keep them consistent." ) # check cmake CMAKE = shutil.which('cmake3') or shutil.which('cmake') assert CMAKE, ( 'The "cmake" executable is not found. Please check if Cmake is installed.' ) TOP_DIR = os.path.dirname(os.path.realpath(__file__)) IS_WINDOWS = os.name == 'nt' def filter_setup_args(input_args): cmake_and_build = True only_cmake = False rerun_cmake = False filter_args_list = [] for arg in input_args: if arg == 'rerun-cmake': rerun_cmake = True # delete CMakeCache.txt and rerun cmake continue if arg == 'only-cmake': only_cmake = True # only cmake and do not make, leave a chance for users to adjust build options continue if arg in ['clean', 'egg_info', 'sdist']: cmake_and_build = False filter_args_list.append(arg) return cmake_and_build, only_cmake, rerun_cmake, filter_args_list cmake_and_build, only_cmake, rerun_cmake, filter_args_list = filter_setup_args( sys.argv ) def parse_input_command(input_parameters): dist = Distribution() # get script name :setup.py sys.argv = input_parameters dist.script_name = os.path.basename(sys.argv[0]) # get args of setup.py dist.script_args = sys.argv[1:] print( "Start executing python {} {}".format( dist.script_name, "".join(dist.script_args) ) ) try: dist.parse_command_line() except: print( f"An error occurred while parsing the parameters, {dist.script_args}" ) sys.exit(1) class BinaryDistribution(Distribution): def has_ext_modules(foo): return True RC = 0 ext_suffix = ( '.dll' if os.name == 'nt' else ('.dylib' if sys.platform == 'darwin' else '.so') ) def get_header_install_dir(header): if 'pb.h' in header or 'pd_op.h' in header: install_dir = re.sub( env_dict.get("PADDLE_BINARY_DIR") + '/', '', header, count=1 ) elif 'third_party' not in header: # paddle headers install_dir = re.sub( env_dict.get("PADDLE_SOURCE_DIR") + '/', '', header, count=1 ) if 'fluid/jit' in install_dir: install_dir = re.sub('fluid/jit', 'jit', install_dir, count=1) else: # third_party install_dir = re.sub( env_dict.get("THIRD_PARTY_PATH"), 'third_party', header, count=1 ) patterns = [ 'install/mkldnn/include/', 'pybind/src/extern_pybind/include/', 'third_party/xpu/src/extern_xpu/xpu/include/', ] for pattern in patterns: install_dir = re.sub(pattern, '', install_dir, count=1) return install_dir class InstallHeaders(Command): """Override how headers are copied.""" description = 'install C/C++ header files' user_options = [ ('install-dir=', 'd', 'directory to install header files to'), ('force', 'f', 'force installation (overwrite existing files)'), ] boolean_options = ['force'] def initialize_options(self): self.install_dir = None self.force = 0 self.outfiles = [] def finalize_options(self): self.set_undefined_options( 'install', ('install_headers', 'install_dir'), ('force', 'force') ) def run(self): hdrs = self.distribution.headers if not hdrs: return self.mkpath(self.install_dir) for header in hdrs: install_dir = get_header_install_dir(header) install_dir = os.path.join( self.install_dir, os.path.dirname(install_dir) ) if not os.path.exists(install_dir): self.mkpath(install_dir) (out, _) = self.copy_file(header, install_dir) self.outfiles.append(out) # (out, _) = self.mkdir_and_copy_file(header) # self.outfiles.append(out) def get_inputs(self): return self.distribution.headers or [] def get_outputs(self): return self.outfiles class InstallCommand(InstallCommandBase): def finalize_options(self): ret = InstallCommandBase.finalize_options(self) self.install_lib = self.install_platlib self.install_headers = os.path.join( self.install_platlib, 'paddle', 'include' ) return ret class DevelopCommand(DevelopCommandBase): def run(self): # copy proto and .so to python_source_dir fluid_proto_binary_path = ( paddle_binary_dir + '/python/paddle/base/proto/' ) fluid_proto_source_path = ( paddle_source_dir + '/python/paddle/base/proto/' ) distributed_proto_binary_path = ( paddle_binary_dir + '/python/paddle/distributed/fleet/proto/' ) distributed_proto_source_path = ( paddle_source_dir + '/python/paddle/distributed/fleet/proto/' ) os.system(f"rm -rf {fluid_proto_source_path}") shutil.copytree(fluid_proto_binary_path, fluid_proto_source_path) os.system(f"rm -rf {distributed_proto_source_path}") shutil.copytree( distributed_proto_binary_path, distributed_proto_source_path ) shutil.copy( paddle_binary_dir + '/python/paddle/base/libpaddle.so', paddle_source_dir + '/python/paddle/base/', ) dynamic_library_binary_path = paddle_binary_dir + '/python/paddle/libs/' dynamic_library_source_path = paddle_source_dir + '/python/paddle/libs/' for lib_so in os.listdir(dynamic_library_binary_path): shutil.copy( dynamic_library_binary_path + lib_so, dynamic_library_source_path, ) # write version.py and cuda_env_config_py to python_source_dir write_version_py( filename=f'{paddle_source_dir}/python/paddle/version/__init__.py' ) write_cuda_env_config_py( filename=f'{paddle_source_dir}/python/paddle/cuda_env.py' ) write_parameter_server_version_py( filename=f'{paddle_source_dir}/python/paddle/incubate/distributed/fleet/parameter_server/version.py' ) DevelopCommandBase.run(self) class EggInfo(egg_info): """Copy license file into `.dist-info` folder.""" def run(self): # don't duplicate license into `.dist-info` when building a distribution if not self.distribution.have_run.get('install', True): self.mkpath(self.egg_info) self.copy_file( env_dict.get("PADDLE_SOURCE_DIR") + "/LICENSE", self.egg_info ) egg_info.run(self) # class InstallLib is rewritten to add header files to .egg/paddle class InstallLib(install_lib): def run(self): self.build() outfiles = self.install() hrds = self.distribution.headers if not hrds: return for header in hrds: install_dir = get_header_install_dir(header) install_dir = os.path.join( self.install_dir, 'paddle/include', os.path.dirname(install_dir) ) if not os.path.exists(install_dir): self.mkpath(install_dir) self.copy_file(header, install_dir) if outfiles is not None: # always compile, in case we have any extension stubs to deal with self.byte_compile(outfiles) def git_commit() -> str: try: cmd = ['git', 'rev-parse', 'HEAD'] git_commit = ( subprocess.Popen( cmd, stdout=subprocess.PIPE, cwd=env_dict.get("PADDLE_SOURCE_DIR"), ) .communicate()[0] .strip() ) except: git_commit = 'Unknown' git_commit = git_commit.decode('utf-8') return str(git_commit) def _get_version_detail(idx): assert idx < 3, ( "version info consists of %(major)d.%(minor)d.%(patch)d, \ so detail index must less than 3" ) tag_version_regex = env_dict.get("TAG_VERSION_REGEX") paddle_version = env_dict.get("PADDLE_VERSION") if re.match(tag_version_regex, paddle_version): version_details = paddle_version.split('.') if len(version_details) >= 3: return version_details[idx] return 0 def _mkdir_p(dir_str): try: os.makedirs(dir_str) except OSError as e: raise RuntimeError("Failed to create build folder") def get_major() -> int: return int(_get_version_detail(0)) def get_minor() -> int: return int(_get_version_detail(1)) def get_patch() -> int: return str(_get_version_detail(2)) def get_nccl_version() -> int: if env_dict.get("WITH_NCCL") == 'ON': return int(env_dict.get("NCCL_VERSION")) return 0 def get_cuda_version() -> str: with_gpu = env_dict.get("WITH_GPU") if with_gpu == 'ON': return env_dict.get("CUDA_VERSION") else: return 'False' def get_hip_version() -> str | None: with_hip = env_dict.get("WITH_ROCM") if with_hip == 'ON': return str(env_dict.get("HIP_VERSION")) else: return None def get_cudnn_version() -> str: with_gpu = env_dict.get("WITH_GPU") if with_gpu == 'ON': temp_cudnn_version = '' cudnn_major_version = env_dict.get("CUDNN_MAJOR_VERSION") if cudnn_major_version: temp_cudnn_version += cudnn_major_version cudnn_minor_version = env_dict.get("CUDNN_MINOR_VERSION") if cudnn_minor_version: temp_cudnn_version = ( temp_cudnn_version + '.' + cudnn_minor_version ) cudnn_patchlevel_version = env_dict.get( "CUDNN_PATCHLEVEL_VERSION" ) if cudnn_patchlevel_version: temp_cudnn_version = ( temp_cudnn_version + '.' + cudnn_patchlevel_version ) return temp_cudnn_version else: return 'False' def get_xpu_xre_version() -> str: with_xpu = env_dict.get("WITH_XPU") if with_xpu == 'ON': return env_dict.get("XPU_XRE_BASE_VERSION") else: return 'False' def get_xpu_xccl_version() -> str: with_xpu_xccl = env_dict.get("WITH_XPU_BKCL") if with_xpu_xccl == 'ON': return env_dict.get("XPU_XCCL_BASE_VERSION") else: return 'False' def get_xpu_xhpc_version() -> str: with_xpu_xhpc = env_dict.get("WITH_XPU") if with_xpu_xhpc == 'ON': return env_dict.get("XPU_XHPC_BASE_DATE") else: return 'False' def is_tagged() -> bool: try: cmd = [ 'git', 'describe', '--exact-match', '--tags', 'HEAD', '2>/dev/null', ] git_tag = ( subprocess.Popen( cmd, stdout=subprocess.PIPE, cwd=env_dict.get("PADDLE_SOURCE_DIR"), ) .communicate()[0] .strip() ) git_tag = git_tag.decode() except: return False if str(git_tag).replace('v', '') == env_dict.get("PADDLE_VERSION"): return True else: return False def get_cinn_version() -> str: if env_dict.get("WITH_CINN") != 'ON': return "False" return "0.3.0" def get_cuda_archs() -> list[int]: compiled_cuda_archs = env_dict.get("COMPILED_CUDA_ARCHS") if isinstance(compiled_cuda_archs, str): compiled_cuda_archs = re.findall(r'\d+', compiled_cuda_archs) return [int(arch) for arch in compiled_cuda_archs] else: return [] def get_tensorrt_version() -> str: def find_libnvinfer(): """Search for libnvinfer.so file in LD_LIBRARY_PATH.""" trt_infer_rt_path = env_dict.get("TR_INFER_RT") tensorrt_library_path = env_dict.get("TENSORRT_LIBRARY_DIR") libnvinfer_file = os.path.join(tensorrt_library_path, trt_infer_rt_path) if os.path.exists(libnvinfer_file): return libnvinfer_file else: print(f"{libnvinfer_file} not found.") return None try: libnvinfer_path = find_libnvinfer() if not libnvinfer_path: return None trt = ctypes.CDLL(libnvinfer_path) get_version = trt.getInferLibVersion get_version.restype = ctypes.c_int version = get_version() version_str = str(version) major = version_str[:1] if len(version_str) > 1 else version_str minor = version_str[1:2] if len(version_str) > 3 else version_str[1:] patch = version_str[3:] if len(version_str) > 3 else '' minor = minor if minor else '0' patch = patch if patch else '0' version_str = f"{major}.{minor}.{patch}" return version_str except Exception as e: print(f"Error while getting TensorRT version: {e}") return None def get_paddle_version() -> int: return env_dict.get("PADDLE_VERSION") def write_version_py(filename='paddle/version/__init__.py'): cnt = '''# THIS FILE IS GENERATED FROM PADDLEPADDLE SETUP.PY # import inspect full_version = '%(paddle_version)s' major = '%(major)d' minor = '%(minor)d' patch = '%(patch)s' nccl_version = '%(nccl)d' rc = '%(rc)d' cuda_version = '%(cuda)s' cudnn_version = '%(cudnn)s' hip_version = %(hip)s xpu_xre_version = '%(xpu_xre)s' xpu_xccl_version = '%(xpu_xccl)s' xpu_xhpc_version = '%(xpu_xhpc)s' is_tagged = %(is_tagged)s commit = '%(commit)s' with_mkl = '%(with_mkl)s' with_hml = '%(with_hml)s' cinn_version = '%(cinn)s' tensorrt_version = '%(tensorrt)s' with_pip_cuda_libraries = '%(with_pip_cuda_libraries)s' with_pip_tensorrt = '%(with_pip_tensorrt)s' compiled_cuda_archs = %(compiled_cuda_archs)s __all__ = ['cuda', 'cudnn', 'nccl', 'show', 'xpu', 'xpu_xre', 'xpu_xccl', 'xpu_xhpc', 'tensorrt', 'cuda_archs', 'hip'] def show() -> None: """Get the version of paddle if `paddle` package if tagged. Otherwise, output the corresponding commit id. Returns: If paddle package is not tagged, the commit-id of paddle will be output. Otherwise, the following information will be output. full_version: version of paddle major: the major version of paddle minor: the minor version of paddle patch: the patch level version of paddle rc: whether it's rc version cuda: the cuda version of package. It will return `False` if CPU version paddle package is installed cudnn: the cudnn version of package. It will return `False` if CPU version paddle package is installed xpu_xre: the xpu xre version of package. It will return `False` if non-XPU version paddle package is installed xpu_xccl: the xpu xccl version of package. It will return `False` if non-XPU version paddle package is installed xpu_xhpc: the xpu xhpc version of package. It will return `False` if non-XPU version paddle package is installed cinn: the cinn version of package. It will return `False` if paddle package is not compiled with CINN Examples: .. code-block:: pycon >>> import paddle >>> # Case 1: paddle is tagged with 2.2.0 >>> paddle.version.show() >>> # doctest: +SKIP('Different environments yield different output.') full_version: 2.2.0 major: 2 minor: 2 patch: 0 rc: 0 cuda: '10.2' cudnn: '7.6.5' xpu_xre: '4.32.0.1' xpu_xccl: '1.0.7' xpu_xhpc: '20231208' cinn: False >>> # doctest: -SKIP >>> # Case 2: paddle is not tagged >>> paddle.version.show() >>> # doctest: +SKIP('Different environments yield different output.') commit: cfa357e984bfd2ffa16820e354020529df434f7d cuda: '10.2' cudnn: '7.6.5' xpu_xre: '4.32.0.1' xpu_xccl: '1.0.7' xpu_xhpc: '20231208' cinn: False >>> # doctest: -SKIP """ if is_tagged: print('full_version:', full_version) print('major:', major) print('minor:', minor) print('patch:', patch) print('rc:', rc) else: print('commit:', commit) print('cuda:', cuda_version) print('cudnn:', cudnn_version) print('hip:', hip_version) print('nccl:', nccl_version) print('xpu_xre:', xpu_xre_version) print('xpu_xccl:', xpu_xccl_version) print('xpu_xhpc:', xpu_xhpc_version) print('cinn:', cinn_version) print('tensorrt_version:', tensorrt_version) print('cuda_archs:', compiled_cuda_archs) def mkl() -> str: return with_mkl def hml() -> str: return with_hml def nccl() -> str: """Get nccl version of paddle package. Returns: string: Return the version information of cuda nccl. If paddle package is CPU version, it will return False. Examples: .. code-block:: pycon >>> import paddle >>> paddle.version.nccl() >>> # doctest: +SKIP('Different environments yield different output.') '2804' """ return nccl_version import inspect CUDA_FUNC_DOC = """Get cuda version of paddle package. Returns: string: Return the version information of cuda. If paddle package is CPU version, it will return False. Examples: .. code-block:: pycon >>> import paddle >>> paddle.version.cuda() >>> # doctest: +SKIP('Different environments yield different output.') '10.2' """ class CudaVersion(str): def __new__(cls, version: str): return super().__new__(cls, version) def __call__(self) -> str: # When users check for GPU devices using paddle.version.cuda is None, we cannot align this behavior with other frameworks . # Note: This discrepancy arises because the is operator checks for object identity (memory address equality) rather than value equality. return str(self) def __repr__(self) -> str: return f"CudaVersion('{self}')" @property def __doc__(self): return CUDA_FUNC_DOC @property def __signature__(self): return inspect.Signature( parameters=[], return_annotation=str ) cuda = CudaVersion(cuda_version) def cudnn() -> str: """Get cudnn version of paddle package. Returns: string: Return the version information of cudnn. If paddle package is CPU version, it will return False. Examples: .. code-block:: pycon >>> import paddle >>> paddle.version.cudnn() >>> # doctest: +SKIP('Different environments yield different output.') '7.6.5' """ return cudnn_version def xpu() -> str: """Get xpu version of paddle package. The API is deprecated now, please use xpu_xhpc() instead. Returns: string: Return the version information of xpu. If paddle package is non-XPU version, it will return False. Examples: .. code-block:: pycon >>> import paddle >>> paddle.version.xpu() >>> # doctest: +SKIP('Different environments yield different output.') '20230114' """ return xpu_xhpc_version def xpu_xre() -> str: """Get xpu xre version of paddle package. Returns: string: Return the version information of xpu. If paddle package is non-XPU version, it will return False. Examples: .. code-block:: pycon >>> import paddle >>> paddle.version.xpu_xre() >>> # doctest: +SKIP('Different environments yield different output.') '4.32.0.1' """ return xpu_xre_version def xpu_xccl() -> str: """Get xpu xccl version of paddle package. Returns: string: Return the version information of xpu xccl. If paddle package is non-XPU version, it will return False. Examples: .. code-block:: pycon >>> import paddle >>> paddle.version.xpu_xccl() >>> # doctest: +SKIP('Different environments yield different output.') '1.0.7' """ return xpu_xccl_version def xpu_xhpc() -> str: """Get xpu xhpc version of paddle package. Returns: string: Return the version information of xpu xhpc. If paddle package is non-XPU version, it will return False. Examples: .. code-block:: pycon >>> import paddle >>> paddle.version.xpu_xhpc() >>> # doctest: +SKIP('Different environments yield different output.') '20231208' """ return xpu_xhpc_version def cinn() -> str: """Get CINN version of paddle package. Returns: string: Return the version information of CINN. If paddle package is not compiled with CINN, it will return False. Examples: .. code-block:: pycon >>> import paddle >>> paddle.version.cinn() >>> # doctest: +SKIP('Different environments yield different output.') False """ return cinn_version def tensorrt() -> str: """Get TensorRT version of paddle package. Returns: string: Return the version information of TensorRT. If paddle package is not compiled with TensorRT, it will return False. Examples: .. code-block:: pycon >>> import paddle >>> paddle.version.tensorrt() >>> # doctest: +SKIP('Different environments yield different output.') False """ return tensorrt_version hip = hip_version def cuda_archs(): """Get compiled cuda archs of paddle package. Returns: list[int]: Return the compiled cuda archs if with gpu. If paddle package is not compiled with gpu, it will return "". Examples: .. code-block:: pycon >>> import paddle >>> paddle.version.cuda_archs() >>> # doctest: +SKIP('Different environments yield different output.') [86] """ return compiled_cuda_archs ''' commit = git_commit() dirname = os.path.dirname(filename) try: os.makedirs(dirname) except OSError as e: if e.errno != errno.EEXIST: raise with open(filename, 'w') as f: f.write( cnt % { 'paddle_version': get_paddle_version(), 'major': get_major(), 'minor': get_minor(), 'patch': get_patch(), 'nccl': get_nccl_version(), 'rc': RC, 'version': env_dict.get("PADDLE_VERSION"), 'cuda': get_cuda_version(), 'cudnn': get_cudnn_version(), 'hip': get_hip_version(), 'xpu_xre': get_xpu_xre_version(), 'xpu_xccl': get_xpu_xccl_version(), 'xpu_xhpc': get_xpu_xhpc_version(), 'commit': commit, 'is_tagged': is_tagged(), 'with_mkl': env_dict.get("WITH_MKL"), 'with_hml': env_dict.get("WITH_HML"), 'cinn': get_cinn_version(), 'tensorrt': get_tensorrt_version(), 'with_pip_cuda_libraries': env_dict.get( "WITH_PIP_CUDA_LIBRARIES" ), 'with_pip_tensorrt': env_dict.get("WITH_PIP_TENSORRT"), 'compiled_cuda_archs': get_cuda_archs(), } ) def write_cuda_env_config_py(filename='paddle/cuda_env.py'): cnt = "" if env_dict.get("JIT_RELEASE_WHL") == 'ON': cnt = '''# THIS FILE IS GENERATED FROM PADDLEPADDLE SETUP.PY # import os os.environ['CUDA_CACHE_MAXSIZE'] = '805306368' ''' with open(filename, 'w') as f: f.write(cnt) def write_parameter_server_version_py( filename='paddle/incubate/distributed/fleet/parameter_server/version.py', ): cnt = ''' # THIS FILE IS GENERATED FROM PADDLEPADDLE SETUP.PY from paddle.incubate.distributed.fleet.base import Mode BUILD_MODE=Mode.%(mode)s def is_transpiler(): return Mode.TRANSPILER == BUILD_MODE ''' dirname = os.path.dirname(filename) try: os.makedirs(dirname) except OSError as e: if e.errno != errno.EEXIST: raise with open(filename, 'w') as f: f.write(cnt % {'mode': 'TRANSPILER'}) def find_files(pattern, root, recursive=False): for dirpath, _, files in os.walk(root): for filename in fnmatch.filter(files, pattern): yield os.path.join(dirpath, filename) if not recursive: break @contextmanager def cd(path): if not os.path.isabs(path): raise RuntimeError(f'Can only cd to absolute path, got: {path}') orig_path = os.getcwd() os.chdir(path) try: yield finally: os.chdir(orig_path) def options_process(args, build_options): for key, value in sorted(build_options.items()): if value is not None: args.append(f"-D{key}={value}") def get_cmake_generator(): if os.getenv("GENERATOR"): cmake_generator = os.getenv("GENERATOR") if os.system('ninja --version') == 0: print("Ninja has been installed,use ninja to compile Paddle now.") else: print("Ninja has not been installed,install it now.") os.system('python -m pip install ninja') else: cmake_generator = "Unix Makefiles" return cmake_generator def cmake_run(build_path): args = [] env_var = os.environ.copy() # get env variables paddle_build_options = {} other_options = {} other_options.update( { option: option for option in ( "PYTHON_LIBRARY", "INFERENCE_DEMO_INSTALL_DIR", "ON_INFER", "PYTHON_EXECUTABLE", "TENSORRT_ROOT", "CUDA_ARCH_NAME", "CUDA_ARCH_BIN", "PYTHON_INCLUDE_DIR", "PYTHON_LIBRARIES", "PY_VERSION", "CUB_PATH", "NEW_RELEASE_PYPI", "CUDNN_ROOT", "THIRD_PARTY_PATH", "NOAVX_CORE_FILE", "LITE_GIT_TAG", "CUDA_TOOLKIT_ROOT_DIR", "NEW_RELEASE_JIT", "XPU_SDK_ROOT", "MSVC_STATIC_CRT", "NEW_RELEASE_ALL", "GENERATOR", "FA_JOB_POOLS_COMPILE", ) } ) # if environment variables which start with "WITH_" or "CMAKE_",put it into build_options for option_key, option_value in env_var.items(): if option_key.startswith(("CMAKE_", "WITH_")): paddle_build_options[option_key] = option_value if option_key in other_options: if ( option_key == 'PYTHON_EXECUTABLE' or option_key == 'PYTHON_LIBRARY' or option_key == 'PYTHON_LIBRARIES' ): key = option_key + ":FILEPATH" elif option_key == 'PYTHON_INCLUDE_DIR': key = option_key + ':PATH' elif option_key == 'GENERATOR': key = 'CMAKE_' + option_key else: key = other_options[option_key] if key not in paddle_build_options: paddle_build_options[key] = option_value options_process(args, paddle_build_options) with cd(build_path): cmake_args = [] cmake_args.append(CMAKE) cmake_args += args cmake_args.append('-DWITH_SETUP_INSTALL=ON') cmake_args.append(TOP_DIR) subprocess.check_call(cmake_args) def build_run(args, build_path, environ_var): with cd(build_path): build_args = [] build_args.append(CMAKE) build_args += args try: subprocess.check_call(build_args, cwd=build_path, env=environ_var) except (CalledProcessError, KeyboardInterrupt) as e: sys.exit(1) def run_cmake_build(build_path): build_type = ( os.getenv("CMAKE_BUILD_TYPE") if os.getenv("CMAKE_BUILD_TYPE") is not None else "release" ) build_args = ["--build", ".", "--target", "install", "--config", build_type] max_jobs = os.getenv("MAX_JOBS") if max_jobs is not None: max_jobs = max_jobs or str(multiprocessing.cpu_count()) build_args += ["--"] if IS_WINDOWS: build_args += [f"/p:CL_MPCount={max_jobs}"] else: build_args += ["-j", max_jobs] else: build_args += ["-j", str(multiprocessing.cpu_count())] environ_var = os.environ.copy() build_run(build_args, build_path, environ_var) def build_steps(): print('------- Building start ------') build_dir = os.getenv("BUILD_DIR") if build_dir is not None: build_dir = TOP_DIR + '/' + build_dir else: build_dir = TOP_DIR + '/build' if not os.path.exists(build_dir): _mkdir_p(build_dir) build_path = build_dir print("build_dir:", build_dir) # run cmake to generate native build files cmake_cache_file_path = os.path.join(build_path, "CMakeCache.txt") # if rerun_cmake is True,remove CMakeCache.txt and rerun cmake if os.path.isfile(cmake_cache_file_path) and rerun_cmake is True: os.remove(cmake_cache_file_path) CMAKE_GENERATOR = get_cmake_generator() bool_ninja = CMAKE_GENERATOR == "Ninja" build_ninja_file_path = os.path.join(build_path, "build.ninja") if os.path.exists(cmake_cache_file_path) and not ( bool_ninja and not os.path.exists(build_ninja_file_path) ): print("Do not need rerun cmake, everything is ready, run build now") else: cmake_run(build_path) # make if only_cmake: print( "You have finished running cmake, the program exited,run 'cmake build' to adjust build options and 'python setup.py install to build'" ) sys.exit() run_cmake_build(build_path) def get_setup_requires(): with open( env_dict.get("PADDLE_SOURCE_DIR") + '/python/requirements.txt' ) as f: setup_requires = ( f.read().splitlines() ) # Specify the dependencies to install if sys.version_info >= (3, 9): setup_requires_tmp = [] for setup_requires_i in setup_requires: if ( '<"3.6"' in setup_requires_i or '<="3.6"' in setup_requires_i or '<"3.5"' in setup_requires_i or '<="3.5"' in setup_requires_i or '<"3.7"' in setup_requires_i or '<="3.7"' in setup_requires_i or '<"3.8"' in setup_requires_i or '<="3.8"' in setup_requires_i or '<"3.9"' in setup_requires_i or setup_requires_i.strip().endswith('[build]') ): continue setup_requires_tmp += [setup_requires_i] setup_requires = setup_requires_tmp return setup_requires else: raise RuntimeError( "please check your python version, Paddle only support Python version>=3.9 now" ) def get_paddle_extra_install_requirements(): paddle_cuda_requires = [] paddle_tensorrt_requires = [] # (Note risemeup1): Paddle will install the pypi cuda package provided by Nvidia, which includes the cuda runtime, cudnn, and cublas, thereby making the operation of 'pip install paddle' no longer dependent on the installation of cuda and cudnn. if env_dict.get("WITH_PIP_CUDA_LIBRARIES") == "ON": if platform.system() == 'Linux': PADDLE_CUDA_INSTALL_REQUIREMENTS = { "11.8": ( "nvidia-cuda-runtime-cu11==11.8.89; platform_system == 'Linux' and platform_machine == 'x86_64' | " "nvidia-cuda-cupti-cu11==11.8.87; platform_system == 'Linux' and platform_machine == 'x86_64' | " "nvidia-cudnn-cu11==8.9.6.50; platform_system == 'Linux' and platform_machine == 'x86_64' | " "nvidia-cublas-cu11==11.11.3.6; platform_system == 'Linux' and platform_machine == 'x86_64' | " "nvidia-cufft-cu11==10.9.0.58; platform_system == 'Linux' and platform_machine == 'x86_64' | " "nvidia-curand-cu11==10.3.0.86; platform_system == 'Linux' and platform_machine == 'x86_64' | " "nvidia-cusolver-cu11==11.4.1.48; platform_system == 'Linux' and platform_machine == 'x86_64' | " "nvidia-cusparse-cu11==11.7.5.86; platform_system == 'Linux' and platform_machine == 'x86_64' | " "nvidia-nccl-cu11==2.19.3; platform_system == 'Linux' and platform_machine == 'x86_64' | " "nvidia-nvtx-cu11==11.8.86; platform_system == 'Linux' and platform_machine == 'x86_64' | " "nvidia-cuda-nvrtc-cu11==11.8.89; platform_system == 'Linux' and platform_machine == 'x86_64'" ), "12.3": ( "nvidia-cuda-runtime-cu12==12.3.101; platform_system == 'Linux' and platform_machine == 'x86_64' | " "nvidia-cuda-cupti-cu12==12.3.101; platform_system == 'Linux' and platform_machine == 'x86_64' | " "nvidia-cudnn-cu12==9.1.1.17; platform_system == 'Linux' and platform_machine == 'x86_64' | " "nvidia-cublas-cu12==12.3.4.1; platform_system == 'Linux' and platform_machine == 'x86_64' | " "nvidia-cufft-cu12==11.2.1.3; platform_system == 'Linux' and platform_machine == 'x86_64' | " "nvidia-curand-cu12==10.3.5.147; platform_system == 'Linux' and platform_machine == 'x86_64' | " "nvidia-cusolver-cu12==11.6.1.9; platform_system == 'Linux' and platform_machine == 'x86_64' | " "nvidia-cusparse-cu12==12.3.1.170; platform_system == 'Linux' and platform_machine == 'x86_64' | " "nvidia-nccl-cu12==2.28.3; platform_system == 'Linux' and platform_machine == 'x86_64' | " "nvidia-nvtx-cu12==12.4.127; platform_system == 'Linux' and platform_machine == 'x86_64' | " "nvidia-cuda-nvrtc-cu12==12.3.107; platform_system == 'Linux' and platform_machine == 'x86_64'" ), "12.4": ( "nvidia-cuda-nvrtc-cu12==12.4.127; platform_system == 'Linux' and platform_machine == 'x86_64' | " "nvidia-cuda-runtime-cu12==12.4.127; platform_system == 'Linux' and platform_machine == 'x86_64' | " "nvidia-cuda-cupti-cu12==12.4.127; platform_system == 'Linux' and platform_machine == 'x86_64' | " "nvidia-cudnn-cu12==9.1.0.70; platform_system == 'Linux' and platform_machine == 'x86_64' | " "nvidia-cublas-cu12==12.4.5.8; platform_system == 'Linux' and platform_machine == 'x86_64' | " "nvidia-cufft-cu12==11.2.1.3; platform_system == 'Linux' and platform_machine == 'x86_64' | " "nvidia-curand-cu12==10.3.5.147; platform_system == 'Linux' and platform_machine == 'x86_64' | " "nvidia-cusolver-cu12==11.6.1.9; platform_system == 'Linux' and platform_machine == 'x86_64' | " "nvidia-cusparse-cu12==12.3.1.170; platform_system == 'Linux' and platform_machine == 'x86_64' | " "nvidia-cusparselt-cu12==0.6.2; platform_system == 'Linux' and platform_machine == 'x86_64' | " "nvidia-nccl-cu12==2.28.3; platform_system == 'Linux' and platform_machine == 'x86_64' | " "nvidia-nvtx-cu12==12.4.127; platform_system == 'Linux' and platform_machine == 'x86_64' | " "nvidia-nvjitlink-cu12==12.4.127; platform_system == 'Linux' and platform_machine == 'x86_64'" ), "12.6": ( "nvidia-cuda-nvrtc-cu12==12.6.77; platform_system == 'Linux' and platform_machine == 'x86_64' | " "nvidia-cuda-runtime-cu12==12.6.77; platform_system == 'Linux' and platform_machine == 'x86_64' | " "nvidia-cuda-cupti-cu12==12.6.80; platform_system == 'Linux' and platform_machine == 'x86_64' | " "nvidia-cudnn-cu12==9.5.1.17; platform_system == 'Linux' and platform_machine == 'x86_64' | " "nvidia-cublas-cu12==12.6.4.1; platform_system == 'Linux' and platform_machine == 'x86_64' | " "nvidia-cufft-cu12==11.3.0.4; platform_system == 'Linux' and platform_machine == 'x86_64' | " "nvidia-curand-cu12==10.3.7.77; platform_system == 'Linux' and platform_machine == 'x86_64' | " "nvidia-cusolver-cu12==11.7.1.2; platform_system == 'Linux' and platform_machine == 'x86_64' | " "nvidia-cusparse-cu12==12.5.4.2; platform_system == 'Linux' and platform_machine == 'x86_64' | " "nvidia-cusparselt-cu12==0.6.3; platform_system == 'Linux' and platform_machine == 'x86_64' | " "nvidia-nccl-cu12==2.25.1; platform_system == 'Linux' and platform_machine == 'x86_64' | " "nvidia-nvtx-cu12==12.6.77; platform_system == 'Linux' and platform_machine == 'x86_64' | " "nvidia-nvjitlink-cu12==12.6.85; platform_system == 'Linux' and platform_machine == 'x86_64' | " "nvidia-cufile-cu12==1.11.1.6; platform_system == 'Linux' and platform_machine == 'x86_64'" ), "12.8": ( "nvidia-cuda-nvrtc-cu12==12.8.61; platform_system == 'Linux' and platform_machine == 'x86_64' | " "nvidia-cuda-runtime-cu12==12.8.57; platform_system == 'Linux' and platform_machine == 'x86_64' | " "nvidia-cuda-cupti-cu12==12.8.57; platform_system == 'Linux' and platform_machine == 'x86_64' | " "nvidia-cudnn-cu12==9.7.1.26; platform_system == 'Linux' and platform_machine == 'x86_64' | " "nvidia-cublas-cu12==12.8.3.14; platform_system == 'Linux' and platform_machine == 'x86_64' | " "nvidia-cufft-cu12==11.3.3.41; platform_system == 'Linux' and platform_machine == 'x86_64' | " "nvidia-curand-cu12==10.3.9.55; platform_system == 'Linux' and platform_machine == 'x86_64' | " "nvidia-cusolver-cu12==11.7.2.55; platform_system == 'Linux' and platform_machine == 'x86_64' | " "nvidia-cusparse-cu12==12.5.7.53; platform_system == 'Linux' and platform_machine == 'x86_64' | " "nvidia-cusparselt-cu12==0.6.3; platform_system == 'Linux' and platform_machine == 'x86_64' | " "nvidia-nccl-cu12==2.28.3; platform_system == 'Linux' and platform_machine == 'x86_64' | " "nvidia-nvtx-cu12==12.8.55; platform_system == 'Linux' and platform_machine == 'x86_64' | " "nvidia-nvjitlink-cu12==12.8.61; platform_system == 'Linux' and platform_machine == 'x86_64' | " "nvidia-cufile-cu12==1.13.0.11; platform_system == 'Linux' and platform_machine == 'x86_64'" ), "12.9": ( "nvidia-cuda-nvrtc-cu12==12.9.41; platform_system == 'Linux' and platform_machine == 'x86_64' | " "nvidia-cuda-runtime-cu12==12.9.37; platform_system == 'Linux' and platform_machine == 'x86_64' | " "nvidia-cuda-cupti-cu12==12.9.19; platform_system == 'Linux' and platform_machine == 'x86_64' | " "nvidia-cudnn-cu12==9.9.0.52; platform_system == 'Linux' and platform_machine == 'x86_64' | " "nvidia-cublas-cu12==12.9.0.13; platform_system == 'Linux' and platform_machine == 'x86_64' | " "nvidia-cufft-cu12==11.4.0.6; platform_system == 'Linux' and platform_machine == 'x86_64' | " "nvidia-curand-cu12==10.3.10.19; platform_system == 'Linux' and platform_machine == 'x86_64' | " "nvidia-cusolver-cu12==11.7.4.40; platform_system == 'Linux' and platform_machine == 'x86_64' | " "nvidia-cusparse-cu12==12.5.9.5; platform_system == 'Linux' and platform_machine == 'x86_64' | " "nvidia-cusparselt-cu12==0.7.1; platform_system == 'Linux' and platform_machine == 'x86_64' | " "nvidia-nccl-cu12==2.28.3; platform_system == 'Linux' and platform_machine == 'x86_64' | " "nvidia-nvtx-cu12==12.9.19; platform_system == 'Linux' and platform_machine == 'x86_64' | " "nvidia-nvjitlink-cu12==12.9.41; platform_system == 'Linux' and platform_machine == 'x86_64' | " "nvidia-cufile-cu12==1.14.0.30; platform_system == 'Linux' and platform_machine == 'x86_64' | " "cuda-python==12.9.4; platform_system == 'Linux' and platform_machine == 'x86_64'" ), "13.0": ( "nvidia-cuda-nvrtc==13.0.88; platform_system == 'Linux' and platform_machine == 'x86_64' | " "nvidia-cuda-runtime==13.0.88; platform_system == 'Linux' and platform_machine == 'x86_64' | " "nvidia-cuda-cupti==13.0.85; platform_system == 'Linux' and platform_machine == 'x86_64' | " "nvidia-cudnn-cu13==9.13.0.50; platform_system == 'Linux' and platform_machine == 'x86_64' | " "nvidia-cublas==13.0.2.14; platform_system == 'Linux' and platform_machine == 'x86_64' | " "nvidia-cufft==12.0.0.61; platform_system == 'Linux' and platform_machine == 'x86_64' | " "nvidia-curand==10.4.0.35; platform_system == 'Linux' and platform_machine == 'x86_64' | " "nvidia-cusolver==12.0.4.66; platform_system == 'Linux' and platform_machine == 'x86_64' | " "nvidia-cusparse==12.6.3.3; platform_system == 'Linux' and platform_machine == 'x86_64' | " "nvidia-cusparselt-cu13==0.8.1; platform_system == 'Linux' and platform_machine == 'x86_64' | " "nvidia-nccl-cu13==2.28.3; platform_system == 'Linux' and platform_machine == 'x86_64' | " "nvidia-nvtx==13.0.85; platform_system == 'Linux' and platform_machine == 'x86_64' | " "nvidia-nvjitlink==13.0.88; platform_system == 'Linux' and platform_machine == 'x86_64' | " "nvidia-cufile==1.15.1.6; platform_system == 'Linux' and platform_machine == 'x86_64' | " "cuda-python==13.0.3; platform_system == 'Linux' and platform_machine == 'x86_64'" ), } if env_dict.get("WITH_CINN") == "ON": PADDLE_CUDA_INSTALL_REQUIREMENTS["12.3"] += ( " | nvidia-cuda-cccl-cu12==12.3.52;platform_system == 'Linux' and platform_machine == 'x86_64' " ) PADDLE_CUDA_INSTALL_REQUIREMENTS["12.4"] += ( " | nvidia-cuda-cccl-cu12==12.4.99;platform_system == 'Linux' and platform_machine == 'x86_64' " ) PADDLE_CUDA_INSTALL_REQUIREMENTS["12.6"] += ( " | nvidia-cuda-cccl-cu12==12.6.77;platform_system == 'Linux' and platform_machine == 'x86_64' " ) PADDLE_CUDA_INSTALL_REQUIREMENTS["12.8"] += ( " | nvidia-cuda-cccl-cu12==12.8.90;platform_system == 'Linux' and platform_machine == 'x86_64' " ) PADDLE_CUDA_INSTALL_REQUIREMENTS["12.9"] += ( " | nvidia-cuda-cccl-cu12==12.9.27;platform_system == 'Linux' and platform_machine == 'x86_64' " ) PADDLE_CUDA_INSTALL_REQUIREMENTS["13.0"] += ( " | nvidia-cuda-cccl==13.0.85;platform_system == 'Linux' and platform_machine == 'x86_64' " ) elif platform.system() == 'Windows': PADDLE_CUDA_INSTALL_REQUIREMENTS = { "11.8": ( "nvidia-cuda-runtime-cu11==11.8.89 | " "nvidia-cudnn-cu11==8.9.4.19 | " "nvidia-cublas-cu11==11.11.3.6 | " "nvidia-cufft-cu11==10.9.0.58 | " "nvidia-curand-cu11==10.3.0.86 | " "nvidia-cusolver-cu11==11.4.1.48 | " "nvidia-cusparse-cu11==11.7.5.86 " ), "12.3": ( "nvidia-cuda-runtime-cu12==12.3.101 | " "nvidia-cudnn-cu12==9.1.1.17 | " "nvidia-cublas-cu12==12.3.4.1 | " "nvidia-cufft-cu12==11.2.1.3 | " "nvidia-curand-cu12==10.3.5.147 | " "nvidia-cusolver-cu12==11.6.1.9 | " "nvidia-cusparse-cu12==12.3.1.170 " ), "12.6": ( "nvidia-cuda-runtime-cu12==12.6.77 | " "nvidia-cudnn-cu12==9.5.1.17 | " "nvidia-cublas-cu12==12.6.4.1 | " "nvidia-cufft-cu12==11.3.0.4 | " "nvidia-curand-cu12==10.3.7.77 | " "nvidia-cusolver-cu12==11.7.1.2 | " "nvidia-cusparse-cu12==12.5.4.2 " ), "12.8": ( "nvidia-cuda-runtime-cu12==12.8.57 | " "nvidia-cudnn-cu12==9.7.1.26 | " "nvidia-cublas-cu12==12.8.3.14 | " "nvidia-cufft-cu12==11.3.3.41 | " "nvidia-curand-cu12==10.3.9.55 | " "nvidia-cusolver-cu12==11.7.2.55 | " "nvidia-cusparse-cu12==12.5.7.53 " ), "12.9": ( "nvidia-cuda-runtime-cu12==12.9.37 | " "nvidia-cudnn-cu12==9.9.0.52 | " "nvidia-cublas-cu12==12.9.0.13 | " "nvidia-cufft-cu12==11.4.0.6 | " "nvidia-curand-cu12==10.3.10.19 | " "nvidia-cusolver-cu12==11.7.4.40 | " "nvidia-cusparse-cu12==12.5.9.5 " ), "13.0": ( "nvidia-cuda-runtime==13.0.88 | " "nvidia-cudnn-cu13==9.13.0.50 | " "nvidia-cublas==13.0.2.14 | " "nvidia-cufft==12.0.0.61 | " "nvidia-curand==10.4.0.35 | " "nvidia-cusolver==12.0.4.66 | " "nvidia-cusparse==12.6.3.3 " ), } try: output = subprocess.check_output(['nvcc', '--version']).decode( 'utf-8' ) version_line = next( line for line in output.split('\n') if 'release' in line ) match = re.search(r'release ([\d\.]+)', version_line) cuda_major_version = match.group(1) except Exception as e: raise ValueError("CUDA not found") if cuda_major_version in PADDLE_CUDA_INSTALL_REQUIREMENTS: paddle_cuda_requires = PADDLE_CUDA_INSTALL_REQUIREMENTS[ cuda_major_version ].split("|") if env_dict.get("WITH_PIP_TENSORRT") == "ON": version_str = get_tensorrt_version() version_default = int(version_str.split(".")[0]) if platform.system() == 'Linux' or ( platform.system() == 'Windows' and version_default >= 10 ): PADDLE_TENSORRT_INSTALL_REQUIREMENTS = [ "tensorrt==8.5.3.1", "tensorrt==8.6.0", "tensorrt==8.6.1.post1", ] if not version_str: return paddle_cuda_requires, [] version_main = ".".join(version_str.split(".")[:3]) matched_package = None for ( paddle_tensorrt_requires ) in PADDLE_TENSORRT_INSTALL_REQUIREMENTS: paddle_tensorrt_version = paddle_tensorrt_requires.split("==")[ 1 ] paddle_tensorrt_main = ".".join( paddle_tensorrt_version.split(".")[:3] ) if version_main == paddle_tensorrt_main: matched_package = paddle_tensorrt_requires break if matched_package: paddle_tensorrt_requires = [matched_package] else: print( f"No exact match found for TensorRT Version: {version_str}. We currently support TensorRT versions 8.5.3.1, 8.6.0, and 8.6.1." ) return paddle_cuda_requires, [] return paddle_cuda_requires, paddle_tensorrt_requires def build_cutlass3_src_code(): target_path = f"{paddle_binary_dir}/python/paddle/apy/matmul_pass/matmul/cutlass-3.7.0" if not os.path.exists(target_path): os.mkdir(target_path) try: cmd = ['git', 'rev-parse', 'HEAD'] git_commit = ( subprocess.Popen( cmd, stdout=subprocess.PIPE, cwd=f"{paddle_source_dir}/third_party/cutlass", ) .communicate()[0] .strip() ) except: git_commit = 'Unknown' raise Exception("obtain commit id of third_party cutlass failed") commit_id = str(git_commit.decode()) command = ( 'cd ' + f'{paddle_source_dir}/third_party/cutlass && ' + 'git checkout v3.7.0 && ' + 'cp ' + f'{paddle_source_dir}/third_party/cutlass/tools -r ' + f'{target_path} && ' + 'cp ' + f'{paddle_source_dir}/third_party/cutlass/include -r ' + f'{target_path} && ' + f'git checkout {commit_id}' ) if os.system(command) != 0: raise Exception(f"copy cutlass-3.7.0 failed, command: {command}") def get_cinn_config_jsons(): from pathlib import Path src_cinn_config_path = ( env_dict.get("PADDLE_SOURCE_DIR") + '/python/paddle/cinn_config' ) prefix_len = len(src_cinn_config_path) + 1 p = Path(src_cinn_config_path) json_list = list(p.glob('**/*.json')) json_path_list = [] for json in json_list: json = str(json) json = json[prefix_len:] json_path_list += [json] return json_path_list def get_apy_files(): from pathlib import Path apy_path = env_dict.get("PADDLE_BINARY_DIR") + '/python/paddle/apy/' prefix_len = len(apy_path) p = Path(apy_path) file_list = [] for path in p.rglob('*'): if path.is_file(): relative_path = str(path)[prefix_len:] file_list.append(relative_path) return file_list def get_typing_libs_packages(paddle_binary_dir): """get all libpaddle sub modules from 'python/paddle/_typing/libs/libpaddle' e.g. 'paddle._typing.libs.libpaddle.pir' 'paddle._typing.libs.libpaddle.eager' 'paddle._typing.libs.libpaddle.eager.ops' """ base_dir = Path(paddle_binary_dir) / 'python' libs_dir = base_dir / 'paddle' / '_typing' / 'libs' / 'libpaddle' return [ '.'.join(str(Path(root).relative_to(base_dir)).split(os.sep)) for root, _, _ in os.walk(libs_dir) ] def extend_type_hints_package_data(packages, package_data, paddle_binary_dir): typing_libs_packages = get_typing_libs_packages(paddle_binary_dir) # update packages packages += typing_libs_packages # update package_data type_hints_files = { 'paddle': ['py.typed', '*.pyi'], 'paddle.framework': ['*.pyi'], 'paddle.base': ['*.pyi'], 'paddle.tensor': ['tensor.pyi'], 'paddle._typing': ['*.pyi'], 'paddle._typing.libs': ['*.pyi', '*.md'], } for libpaddle_module in typing_libs_packages: type_hints_files[libpaddle_module] = ['*.pyi'] for pkg, files in type_hints_files.items(): if pkg not in package_data: package_data[pkg] = [] package_data[pkg] += files return packages, package_data def get_package_data_and_package_dir(): if os.name != 'nt': package_data = { 'paddle.base': [env_dict.get("FLUID_CORE_NAME") + '.so'] } else: package_data = { 'paddle.base': [ env_dict.get("FLUID_CORE_NAME") + '.pyd', env_dict.get("FLUID_CORE_NAME") + '.lib', ] } custom_device_dir = ( env_dict.get("PADDLE_BINARY_DIR") + '/python/paddle/paddle_custom_device' ) if os.path.isdir(custom_device_dir): package_data['paddle.paddle_custom_device'] = ['*.so', 'include/**'] package_data['paddle.base'] += [ paddle_binary_dir + '/python/paddle/cost_model/static_op_benchmark.json' ] whl_cinn_config_path = paddle_binary_dir + '/python/paddle/cinn_config' src_cinn_config_path = ( env_dict.get("PADDLE_SOURCE_DIR") + '/python/paddle/cinn_config' ) package_data['paddle.cinn_config'] = [] if os.path.exists(whl_cinn_config_path): shutil.rmtree(whl_cinn_config_path) shutil.copytree(src_cinn_config_path, whl_cinn_config_path) json_path_list = get_cinn_config_jsons() for json in json_path_list: package_data['paddle.cinn_config'] += [json] # if env_dict.get("WITH_CINN") == 'ON': # build_cutlass3_src_code() package_data['paddle.apy'] = [] file_path_list = get_apy_files() for file in file_path_list: package_data['paddle.apy'] += [file] if 'develop' in sys.argv: package_dir = {'': 'python'} else: package_dir = { '': env_dict.get("PADDLE_BINARY_DIR") + '/python', 'paddle.base.proto.profiler': env_dict.get("PADDLE_BINARY_DIR") + '/paddle/fluid/platform', 'paddle.base.proto': env_dict.get("PADDLE_BINARY_DIR") + '/paddle/fluid/framework', 'paddle.base': env_dict.get("PADDLE_BINARY_DIR") + '/python/paddle/base', } if os.path.isdir(custom_device_dir): package_dir['paddle.paddle_custom_device'] = custom_device_dir # put all thirdparty libraries in paddle.libs libs_path = paddle_binary_dir + '/python/paddle/libs' package_data['paddle.libs'] = [] if env_dict.get("WITH_FLAGCX") == 'ON': package_data['paddle.libs'] += [ ('libflagcx' if os.name != 'nt' else 'flagcx') + ext_suffix ] shutil.copy(env_dict.get("FLAGCX_LIB"), libs_path) if env_dict.get("WITH_SHARED_PHI") == "ON": package_data['paddle.libs'] += [ ('libphi' if os.name != 'nt' else 'phi') + ext_suffix ] shutil.copy(env_dict.get("PHI_LIB"), libs_path) if os.name != 'nt': package_data['paddle.libs'] += [ ('libphi_core' if os.name != 'nt' else 'phi_core') + ext_suffix ] shutil.copy(env_dict.get("PHI_CORE_LIB"), libs_path) if ( env_dict.get("WITH_GPU") == "ON" or env_dict.get("WITH_ROCM") == "ON" ): package_data['paddle.libs'] += [ ('libphi_gpu' if os.name != 'nt' else 'phi_gpu') + ext_suffix ] shutil.copy(env_dict.get("PHI_GPU_LIB"), libs_path) if os.name == 'nt': package_data['paddle.libs'] += ['phi.lib'] shutil.copy(env_dict.get("PHI_LINK"), libs_path) if env_dict.get("WITH_SHARED_IR") == "ON": package_data['paddle.libs'] += [ ('libpir' if os.name != 'nt' else 'pir') + ext_suffix ] shutil.copy(env_dict.get("IR_LIB"), libs_path) package_data['paddle.libs'] += [ ('libwarpctc' if os.name != 'nt' else 'warpctc') + ext_suffix, ('libwarprnnt' if os.name != 'nt' else 'warprnnt') + ext_suffix, ] package_data['paddle.libs'] += [ ('libcommon' if os.name != 'nt' else 'common') + ext_suffix, ] if os.name == 'nt': package_data['paddle.libs'] += ['common.lib'] shutil.copy(env_dict.get("COMMON_LINK"), libs_path) shutil.copy(env_dict.get("COMMON_LIB"), libs_path) shutil.copy(env_dict.get("WARPCTC_LIBRARIES"), libs_path) shutil.copy(env_dict.get("WARPRNNT_LIBRARIES"), libs_path) package_data['paddle.libs'] += [ os.path.basename(env_dict.get("LAPACK_LIB")), os.path.basename(env_dict.get("BLAS_LIB")), os.path.basename(env_dict.get("GFORTRAN_LIB")), os.path.basename(env_dict.get("GNU_RT_LIB_1")), ] shutil.copy(env_dict.get("BLAS_LIB"), libs_path) shutil.copy(env_dict.get("LAPACK_LIB"), libs_path) shutil.copy(env_dict.get("GFORTRAN_LIB"), libs_path) shutil.copy(env_dict.get("GNU_RT_LIB_1"), libs_path) if env_dict.get("WITH_MAGMA") == 'ON': package_data['paddle.libs'] += [ os.path.basename('MAGMA_LIB'), ] shutil.copy(env_dict.get("MAGMA_LIB"), libs_path) if not sys.platform.startswith("linux"): package_data['paddle.libs'] += [ os.path.basename(env_dict.get("GNU_RT_LIB_2")) ] shutil.copy(env_dict.get("GNU_RT_LIB_2"), libs_path) if env_dict.get("WITH_MKL") == 'ON': shutil.copy(env_dict.get("MKLML_SHARED_LIB"), libs_path) shutil.copy(env_dict.get("MKLML_SHARED_IOMP_LIB"), libs_path) package_data['paddle.libs'] += [ ('libmklml_intel' if os.name != 'nt' else 'mklml') + ext_suffix, ('libiomp5' if os.name != 'nt' else 'libiomp5md') + ext_suffix, ] elif env_dict.get("WITH_HML") == 'ON': shutil.copy(env_dict.get("HML_LIB"), libs_path) package_data['paddle.libs'] += ['libhml_rt' + ext_suffix] else: if os.name == 'nt': # copy the openblas.dll shutil.copy(env_dict.get("OPENBLAS_SHARED_LIB"), libs_path) package_data['paddle.libs'] += ['openblas' + ext_suffix] elif ( os.name == 'posix' and platform.machine() == 'aarch64' and env_dict.get("OPENBLAS_LIB").endswith('so') ): # copy the libopenblas.so on linux+aarch64 # special: libpaddle.so without avx depends on 'libopenblas.so.0', not 'libopenblas.so' if os.path.exists(env_dict.get("OPENBLAS_LIB") + '.0'): shutil.copy(env_dict.get("OPENBLAS_LIB") + '.0', libs_path) package_data['paddle.libs'] += ['libopenblas.so.0'] if env_dict.get("WITH_GPU") == 'ON' or env_dict.get("WITH_ROCM") == 'ON': if len(env_dict.get("FLASHATTN_LIBRARIES", "")) > 1: package_data['paddle.libs'] += [ os.path.basename(env_dict.get("FLASHATTN_LIBRARIES")) ] shutil.copy(env_dict.get("FLASHATTN_LIBRARIES"), libs_path) if len(env_dict.get("FLASHATTN_V3_LIBRARIES", "")) > 1: package_data['paddle.libs'] += [ os.path.basename(env_dict.get("FLASHATTN_V3_LIBRARIES")) ] shutil.copy(env_dict.get("FLASHATTN_V3_LIBRARIES"), libs_path) if len(env_dict.get("FLASHMASK_V2_LIBRARIES", "")) > 1: package_data['paddle.libs'] += [ os.path.basename(env_dict.get("FLASHMASK_V2_LIBRARIES")) ] shutil.copy(env_dict.get("FLASHMASK_V2_LIBRARIES"), libs_path) if ( env_dict.get("WITH_DISTRIBUTE") == 'ON' and env_dict.get("WITH_NVSHMEM") == 'ON' ): if len(env_dict.get("NVSHMEM_BOOTSTRAP_UID_LIB", "")) > 1: package_data['paddle.libs'] += [ os.path.basename(env_dict.get("NVSHMEM_BOOTSTRAP_UID_LIB")), os.path.basename(env_dict.get("NVSHMEM_BOOTSTRAP_PMI_LIB")), os.path.basename(env_dict.get("NVSHMEM_BOOTSTRAP_PMI2_LIB")), os.path.basename(env_dict.get("NVSHMEM_TRANSPORT_IBRC_LIB")), os.path.basename(env_dict.get("NVSHMEM_TRANSPORT_IBGDA_LIB")), ] shutil.copy(env_dict.get("NVSHMEM_BOOTSTRAP_UID_LIB"), libs_path) shutil.copy(env_dict.get("NVSHMEM_BOOTSTRAP_PMI_LIB"), libs_path) shutil.copy(env_dict.get("NVSHMEM_BOOTSTRAP_PMI2_LIB"), libs_path) shutil.copy(env_dict.get("NVSHMEM_TRANSPORT_IBRC_LIB"), libs_path) shutil.copy(env_dict.get("NVSHMEM_TRANSPORT_IBGDA_LIB"), libs_path) if env_dict.get("WITH_CINN") == 'ON': shutil.copy( env_dict.get("CINN_LIB_LOCATION") + '/' + env_dict.get("CINN_LIB_NAME"), libs_path, ) shutil.copy( env_dict.get("CINN_INCLUDE_DIR") + '/paddle/cinn/runtime/cuda/cinn_cuda_runtime_source.cuh', libs_path, ) shutil.copy( env_dict.get("CINN_INCLUDE_DIR") + '/paddle/cinn/runtime/hip/cinn_hip_runtime_source.h', libs_path, ) shutil.copy( env_dict.get("CINN_INCLUDE_DIR") + '/paddle/cinn/runtime/sycl/cinn_sycl_runtime_source.h', libs_path, ) package_data['paddle.libs'] += ['libcinnapi.so'] package_data['paddle.libs'] += ['cinn_cuda_runtime_source.cuh'] package_data['paddle.libs'] += ['cinn_hip_runtime_source.h'] package_data['paddle.libs'] += ['cinn_sycl_runtime_source.h'] cinn_fp16_file = ( env_dict.get("CINN_INCLUDE_DIR") + '/paddle/cinn/runtime/cuda/float16.h' ) if env_dict.get("WITH_ROCM") == 'ON': cinn_fp16_file = ( env_dict.get("CINN_INCLUDE_DIR") + '/paddle/cinn/runtime/hip/float16.h' ) if os.path.exists(cinn_fp16_file): shutil.copy(cinn_fp16_file, libs_path) package_data['paddle.libs'] += ['float16.h'] cinn_bf16_file = ( env_dict.get("CINN_INCLUDE_DIR") + '/paddle/cinn/runtime/cuda/bfloat16.h' ) if os.path.exists(cinn_bf16_file): shutil.copy(cinn_bf16_file, libs_path) package_data['paddle.libs'] += ['bfloat16.h'] cinn_fp8_file = ( env_dict.get("CINN_INCLUDE_DIR") + '/paddle/cinn/runtime/cuda/float8e4m3.h' ) if os.path.exists(cinn_fp8_file): shutil.copy(cinn_fp8_file, libs_path) package_data['paddle.libs'] += ['float8e4m3.h'] if env_dict.get("CMAKE_BUILD_TYPE") == 'Release' and os.name != 'nt': if ( env_dict.get("WITH_GPU") == 'ON' and tuple(map(int, env_dict.get("CUDA_VERSION").split('.'))) >= (13, 0) and tuple(map(int, env_dict.get("CUDA_VERSION").split('.'))) < (14, 0) ): command = ( f"patchelf --force-rpath --set-rpath '$ORIGIN/../../nvidia/cu13/lib/:$ORIGIN/../../nvidia/cudnn/lib/:$ORIGIN/' {libs_path}/" + env_dict.get("CINN_LIB_NAME") ) else: command = ( f"patchelf --force-rpath --set-rpath '$ORIGIN/../../nvidia/cuda_nvrtc/lib/:$ORIGIN/../../nvidia/cuda_runtime/lib/:$ORIGIN/../../nvidia/cublas/lib/:$ORIGIN/../../nvidia/cudnn/lib/:$ORIGIN/../../nvidia/curand/lib/:$ORIGIN/../../nvidia/cusolver/lib/:$ORIGIN/../../nvidia/nvtx/lib/:$ORIGIN/' {libs_path}/" + env_dict.get("CINN_LIB_NAME") ) if os.system(command) != 0: raise Exception( 'patch ' + libs_path + '/' + env_dict.get("CINN_LIB_NAME") + ' failed', f'command: {command}', ) if env_dict.get("WITH_ONEDNN") == 'ON': if env_dict.get("CMAKE_BUILD_TYPE") == 'Release' and os.name != 'nt': # only change rpath in Release mode. # TODO(typhoonzero): use install_name_tool to patch mkl libs once # we can support mkl on mac. # # change rpath of libdnnl.so.1, add $ORIGIN/ to it. # The reason is that all thirdparty libraries in the same directory, # thus, libdnnl.so.1 will find libmklml_intel.so and libiomp5.so. command = ( "patchelf --force-rpath --set-rpath '$ORIGIN/' " + env_dict.get("ONEDNN_SHARED_LIB") ) if os.system(command) != 0: raise Exception(f"patch libdnnl.so failed, command: {command}") shutil.copy(env_dict.get("ONEDNN_SHARED_LIB"), libs_path) if os.name != 'nt': package_data['paddle.libs'] += ['libdnnl.so.3'] else: package_data['paddle.libs'] += ['mkldnn.dll'] if env_dict.get("WITH_ONNXRUNTIME") == 'ON': shutil.copy(env_dict.get("ONNXRUNTIME_SHARED_LIB"), libs_path) shutil.copy(env_dict.get("PADDLE2ONNX_LIB"), libs_path) if os.name == 'nt': package_data['paddle.libs'] += [ 'paddle2onnx.dll', 'onnxruntime.dll', ] else: package_data['paddle.libs'] += [ env_dict.get("PADDLE2ONNX_LIB_NAME"), env_dict.get("ONNXRUNTIME_LIB_NAME"), ] if env_dict.get("WITH_OPENVINO") == 'ON': shutil.copy(env_dict.get("OPENVINO_LIB"), libs_path) shutil.copy(env_dict.get("TBB_LIB"), libs_path) shutil.copy(env_dict.get("OPENVINO_PADDLE_LIB"), libs_path) shutil.copy(env_dict.get("OPENVINO_CPU_PLUGIN_LIB"), libs_path) if os.name != 'nt': package_data['paddle.libs'] += [ 'libopenvino.so.2500', 'libtbb.so.12', 'libopenvino_paddle_frontend.so.2500', 'libopenvino_intel_cpu_plugin.so', ] else: package_data['paddle.libs'] += [ 'openvino.dll', 'tbb.dll', 'openvino_paddle_frontend.dll', 'openvino_intel_cpu_plugin.dll', ] if env_dict.get("WITH_XPU") == 'ON': shutil.copy(env_dict.get("XPU_API_LIB"), libs_path) package_data['paddle.libs'] += [env_dict.get("XPU_API_LIB_NAME")] xpu_rt_lib_list = glob.glob(env_dict.get("XPU_RT_LIB") + '*') for xpu_rt_lib_file in xpu_rt_lib_list: shutil.copy(xpu_rt_lib_file, libs_path) package_data['paddle.libs'] += [os.path.basename(xpu_rt_lib_file)] xpu_cuda_lib_list = glob.glob(env_dict.get("XPU_CUDA_LIB") + '*') for xpu_cuda_lib_file in xpu_cuda_lib_list: shutil.copy(xpu_cuda_lib_file, libs_path) package_data['paddle.libs'] += [os.path.basename(xpu_cuda_lib_file)] if env_dict.get("WITH_XPU_XRE5") == 'ON': xpu_cuda_rt_lib_list = glob.glob( env_dict.get("XPU_CUDA_RT_LIB") + '*' ) for xpu_cuda_rt_lib_file in xpu_cuda_rt_lib_list: shutil.copy(xpu_cuda_rt_lib_file, libs_path) package_data['paddle.libs'] += [ os.path.basename(xpu_cuda_rt_lib_file) ] xpu_ml_lib_list = glob.glob(env_dict.get("XPU_ML_LIB") + '*') for xpu_ml_lib_file in xpu_ml_lib_list: shutil.copy(xpu_ml_lib_file, libs_path) package_data['paddle.libs'] += [ os.path.basename(xpu_ml_lib_file) ] shutil.copy(env_dict.get("XPU_XBLAS_LIB"), libs_path) package_data['paddle.libs'] += [env_dict.get("XPU_XBLAS_LIB_NAME")] shutil.copy(env_dict.get("XPU_XBLAS_JITC_LIB"), libs_path) package_data['paddle.libs'] += [ env_dict.get("XPU_XBLAS_JITC_LIB_NAME") ] shutil.copy(env_dict.get("XPU_XBLAS_LLVM_LIB"), libs_path) package_data['paddle.libs'] += [ env_dict.get("XPU_XBLAS_LLVM_LIB_NAME") ] shutil.copy(env_dict.get("XPU_XBLAS_CLANG_LIB"), libs_path) package_data['paddle.libs'] += [ env_dict.get("XPU_XBLAS_CLANG_LIB_NAME") ] shutil.copy(env_dict.get("XPU_XFA_LIB"), libs_path) package_data['paddle.libs'] += [env_dict.get("XPU_XFA_LIB_NAME")] shutil.copy(env_dict.get("XPU_XPUDNN_LIB"), libs_path) package_data['paddle.libs'] += [env_dict.get("XPU_XPUDNN_LIB_NAME")] shutil.copy(env_dict.get("XPU_XPUDNN_OMP_LIB"), libs_path) package_data['paddle.libs'] += [ env_dict.get("XPU_XPUDNN_OMP_LIB_NAME") ] shutil.copy(env_dict.get("XPU_XPUTX_LIB"), libs_path) package_data['paddle.libs'] += [env_dict.get("XPU_XPUTX_LIB_NAME")] shutil.copy(env_dict.get("XPU_CUPTI_LIB"), libs_path) package_data['paddle.libs'] += [env_dict.get("XPU_CUPTI_LIB_NAME")] if env_dict.get("WITH_XPU_BKCL") == 'ON': shutil.copy(env_dict.get("XPU_BKCL_LIB"), libs_path) package_data['paddle.libs'] += [env_dict.get("XPU_BKCL_LIB_NAME")] if env_dict.get("WITH_XPU_FFT") == 'ON': xpu_fft_lib_list = glob.glob(env_dict.get("XPU_FFT_LIB") + '*') for xpu_fft_lib_file in xpu_fft_lib_list: shutil.copy(xpu_fft_lib_file, libs_path) package_data['paddle.libs'] += [os.path.basename(xpu_fft_lib_file)] if env_dict.get("WITH_XPU_XFT") == 'ON': shutil.copy(env_dict.get("XPU_XFT_LIB"), libs_path) package_data['paddle.libs'] += [env_dict.get("XPU_XFT_LIB_NAME")] if env_dict.get("WITH_XPTI") == 'ON': shutil.copy(env_dict.get("XPU_XPTI_LIB"), libs_path) package_data['paddle.libs'] += [env_dict.get("XPU_XPTI_LIB_NAME")] # remove unused paddle/libs/__init__.py if os.path.isfile(libs_path + '/__init__.py'): os.remove(libs_path + '/__init__.py') package_dir['paddle.libs'] = libs_path # change rpath of ${FLUID_CORE_NAME}.ext, add $ORIGIN/../libs/ to it. # The reason is that libwarpctc.ext, libwarprnnt.ext, libiomp5.ext etc are in paddle.libs, and # ${FLUID_CORE_NAME}.ext is in paddle.base, thus paddle/fluid/../libs will pointer to above libraries. # This operation will fix https://github.com/PaddlePaddle/Paddle/issues/3213 if env_dict.get("CMAKE_BUILD_TYPE") == 'Release': if os.name != 'nt': # only change rpath in Release mode, since in Debug mode, ${FLUID_CORE_NAME}.xx is too large to be changed. if env_dict.get("APPLE") == "1": commands = [ "install_name_tool -id '@loader_path/../libs/' " + env_dict.get("PADDLE_BINARY_DIR") + '/python/paddle/base/' + env_dict.get("FLUID_CORE_NAME") + '.so' ] commands.append( "install_name_tool -add_rpath '@loader_path/../libs/' " + env_dict.get("PADDLE_BINARY_DIR") + '/python/paddle/base/' + env_dict.get("FLUID_CORE_NAME") + '.so' ) commands.append( "install_name_tool -add_rpath '@loader_path/../libs/' " + env_dict.get("PADDLE_BINARY_DIR") + '/python/paddle/libs/' + env_dict.get("COMMON_NAME") ) if env_dict.get("WITH_SHARED_PHI") == "ON": commands.append( "install_name_tool -add_rpath '@loader_path' " + env_dict.get("PADDLE_BINARY_DIR") + '/python/paddle/libs/' + env_dict.get("PHI_NAME") ) commands.append( "install_name_tool -add_rpath '@loader_path' " + env_dict.get("PADDLE_BINARY_DIR") + '/python/paddle/libs/' + env_dict.get("PHI_CORE_NAME") ) if ( env_dict.get("WITH_GPU") == "ON" or env_dict.get("WITH_ROCM") == "ON" ): commands.append( "install_name_tool -add_rpath '@loader_path' " + env_dict.get("PADDLE_BINARY_DIR") + '/python/paddle/libs/' + env_dict.get("PHI_GPU_NAME") ) if env_dict.get("WITH_SHARED_IR") == "ON": commands.append( "install_name_tool -add_rpath '@loader_path' " + env_dict.get("PADDLE_BINARY_DIR") + '/python/paddle/libs/' + env_dict.get("IR_NAME") ) else: if ( env_dict.get("WITH_GPU") == 'ON' and tuple(map(int, env_dict.get("CUDA_VERSION").split('.'))) >= (13, 0) and tuple(map(int, env_dict.get("CUDA_VERSION").split('.'))) < (14, 0) ): commands = [ "patchelf --force-rpath --set-rpath '$ORIGIN/../../nvidia/cu13/lib:$ORIGIN/../../nvidia/cudnn/lib:$ORIGIN/../../nvidia/nccl/lib:$ORIGIN/../../cusparselt/lib:$ORIGIN/../libs/' " + env_dict.get("PADDLE_BINARY_DIR") + '/python/paddle/base/' + env_dict.get("FLUID_CORE_NAME") + '.so' ] if env_dict.get("WITH_SHARED_PHI") == "ON": commands.append( "patchelf --force-rpath --set-rpath '$ORIGIN/../../nvidia/cu13/lib:$ORIGIN:$ORIGIN/../libs' " + env_dict.get("PADDLE_BINARY_DIR") + '/python/paddle/libs/' + env_dict.get("PHI_NAME") ) commands.append( "patchelf --force-rpath --set-rpath '$ORIGIN/../../nvidia/cu13/lib:$ORIGIN:$ORIGIN/../libs' " + env_dict.get("PADDLE_BINARY_DIR") + '/python/paddle/libs/' + env_dict.get("PHI_CORE_NAME") ) if ( env_dict.get("WITH_GPU") == "ON" or env_dict.get("WITH_ROCM") == "ON" ): commands.append( "patchelf --force-rpath --set-rpath '$ORIGIN/../../nvidia/cu13/lib:$ORIGIN:$ORIGIN/../libs' " + env_dict.get("PADDLE_BINARY_DIR") + '/python/paddle/libs/' + env_dict.get("PHI_GPU_NAME") ) else: commands = [ "patchelf --force-rpath --set-rpath '$ORIGIN/../../nvidia/cuda_runtime/lib:$ORIGIN/../../nvidia/cuda_nvrtc/lib:$ORIGIN/../../nvidia/cublas/lib:$ORIGIN/../../nvidia/cudnn/lib:$ORIGIN/../../nvidia/curand/lib:$ORIGIN/../../nvidia/cusparse/lib:$ORIGIN/../../nvidia/nvjitlink/lib:$ORIGIN/../../nvidia/cuda_cupti/lib:$ORIGIN/../../nvidia/cuda_runtime/lib:$ORIGIN/../../nvidia/cufft/lib:$ORIGIN/../../nvidia/cufft/lib:$ORIGIN/../../nvidia/cusolver/lib:$ORIGIN/../../nvidia/nccl/lib:$ORIGIN/../../nvidia/nvtx/lib:$ORIGIN/../libs/' " + env_dict.get("PADDLE_BINARY_DIR") + '/python/paddle/base/' + env_dict.get("FLUID_CORE_NAME") + '.so' ] if env_dict.get("WITH_SHARED_PHI") == "ON": commands.append( "patchelf --force-rpath --set-rpath '$ORIGIN/../../nvidia/cuda_runtime/lib:$ORIGIN:$ORIGIN/../libs' " + env_dict.get("PADDLE_BINARY_DIR") + '/python/paddle/libs/' + env_dict.get("PHI_NAME") ) commands.append( "patchelf --force-rpath --set-rpath '$ORIGIN/../../nvidia/cuda_runtime/lib:$ORIGIN:$ORIGIN/../libs' " + env_dict.get("PADDLE_BINARY_DIR") + '/python/paddle/libs/' + env_dict.get("PHI_CORE_NAME") ) if ( env_dict.get("WITH_GPU") == "ON" or env_dict.get("WITH_ROCM") == "ON" ): commands.append( "patchelf --force-rpath --set-rpath '$ORIGIN/../../nvidia/cuda_runtime/lib:$ORIGIN:$ORIGIN/../libs' " + env_dict.get("PADDLE_BINARY_DIR") + '/python/paddle/libs/' + env_dict.get("PHI_GPU_NAME") ) if env_dict.get("WITH_SHARED_IR") == "ON": commands.append( "patchelf --force-rpath --set-rpath '$ORIGIN:$ORIGIN/../libs' " + env_dict.get("PADDLE_BINARY_DIR") + '/python/paddle/libs/' + env_dict.get("IR_NAME") ) # The sw_64 not support patchelf, so we just disable that. if platform.machine() != 'sw_64' and platform.machine() != 'mips64': for command in commands: if os.system(command) != 0: raise Exception( 'patch ' + env_dict.get("FLUID_CORE_NAME") + f'{ext_suffix} failed', f'command: {command}', ) # A list of extensions that specify c++ -written modules that compile source code into dynamically linked libraries ext_modules = [Extension('_foo', [paddle_binary_dir + '/python/stub.cc'])] if os.name == 'nt': # fix the path separator under windows fix_package_dir = {} for k, v in package_dir.items(): fix_package_dir[k] = v.replace('/', '\\') package_dir = fix_package_dir ext_modules = [] elif sys.platform == 'darwin': ext_modules = [] return package_data, package_dir, ext_modules def get_headers(): headers = ( # paddle level api headers (high level api, for both training and inference) list(find_files('*.h', paddle_source_dir + '/paddle')) + list(find_files('*.h', paddle_source_dir + '/paddle/phi/api')) + list( # phi unify api header find_files('*.h', paddle_source_dir + '/paddle/phi/api/ext') ) + list( # custom op api find_files('*.h', paddle_source_dir + '/paddle/phi/api/include') ) + list( # phi api find_files('*.h', paddle_source_dir + '/paddle/phi/common') ) + list( # common api find_files('*.h', paddle_source_dir + '/paddle/common') ) # torch compatible apis + list( find_files( '*.h', paddle_source_dir + '/paddle/phi/api/include/compat', recursive=True, ) ) # phi level api headers (low level api, for training only) + list( # phi extension header find_files('*.h', paddle_source_dir + '/paddle/phi') ) + list( # phi include header find_files( '*.h', paddle_source_dir + '/paddle/phi/include', recursive=True ) ) + list( # phi backends headers find_files('*.h', paddle_source_dir + '/paddle/phi/backends') ) + list( # phi core headers find_files( '*.h', paddle_source_dir + '/paddle/phi/core', recursive=True ) ) + list( # phi infermeta headers find_files( '*.h', paddle_source_dir + '/paddle/phi/infermeta', recursive=True, ) ) + list( # phi kernel headers find_files( '*.h', paddle_source_dir + '/paddle/phi/kernels', recursive=True, ) ) # phi capi headers + list( find_files( '*.h', paddle_source_dir + '/paddle/phi/capi', recursive=True ) ) + list( # utils api headers find_files( '*.h', paddle_source_dir + '/paddle/utils', recursive=True ) ) + list( # phi profiler headers find_files( '*.h', paddle_source_dir + '/paddle/phi/api/profiler', recursive=True, ) ) + list( # phi init headers find_files( 'init_phi.h', paddle_source_dir + '/paddle/fluid/platform', recursive=True, ) ) + list( # pir init headers find_files( '*.h', paddle_source_dir + '/paddle/pir/include', recursive=True, ) ) + list( # drr init headers find_files( '*.h', paddle_source_dir + '/paddle/fluid/pir/drr/include', recursive=True, ) ) + list( # drr init headers find_files( '*.h', paddle_source_dir + '/paddle/fluid/pir/dialect/operator/interface/infer_symbolic_shape', recursive=True, ) ) + list( # operator init headers find_files( '*.h', paddle_source_dir + '/paddle/fluid/pir/dialect/operator/ir', ) ) + list( # pass utils init headers find_files( 'general_functions.h', paddle_source_dir + '/paddle/fluid/pir/utils', ) ) + list( # serialize and deserialize interface headers find_files( 'interface.h', paddle_source_dir + '/paddle/fluid/pir/serialize_deserialize/include', ) ) + list( # serialize and deserialize interface headers find_files( 'dense_tensor.inl', paddle_source_dir + '/paddle/phi/core', ) ) + list( # serialize and deserialize interface headers find_files( 'op_yaml_info.h', paddle_source_dir + '/paddle/fluid/pir/dialect/operator/interface', ) ) + list( # serialize and deserialize interface headers find_files( 'op_yaml_info_util.h', paddle_source_dir + '/paddle/fluid/pir/dialect/operator/utils', ) ) + list( # op yaml parser interface headers find_files( 'op_yaml_info_parser.h', paddle_source_dir + '/paddle/fluid/pir/dialect/operator/utils', ) ) + list( # pir op utils interface headers find_files( 'utils.h', paddle_source_dir + '/paddle/fluid/pir/dialect/operator/utils', ) ) + list( # ir translator interface headers find_files( 'op_compat_info.h', paddle_source_dir + '/paddle/fluid/ir_adaptor/translator/', ) ) + list( find_files( 'infer_symbolic_shape.h', paddle_source_dir + '/paddle/fluid/pir/dialect/operator/interface/infer_symbolic_shape', ) ) + list( find_files( 'vjp.h', paddle_source_dir + '/paddle/fluid/pir/dialect/operator/interface', ) ) + list( find_files( 'lexer.h', paddle_source_dir + '/paddle/pir/src/core/parser', ) ) + list( find_files( 'token.h', paddle_source_dir + '/paddle/pir/src/core/parser', ) ) + list( find_files( 'pd_op.h', paddle_binary_dir + '/paddle/fluid/pir/dialect/operator/ir', ) ) + list( find_files( 'pd_op_sig.h', paddle_source_dir + '/paddle/fluid/ir_adaptor/translator', ) ) + list( find_files( '*.h', paddle_source_dir + '/paddle/fluid/pir/dialect/operator/interface', ) ) + list( find_files( '*.hpp', paddle_source_dir + '/paddle/fluid/pir/dialect/operator/interface', ) ) + list( find_files( '*.h', paddle_source_dir + '/paddle/fluid/pir/dialect/operator/trait', ) ) + list( find_files( '*.h', paddle_source_dir + '/paddle/fluid/pir/dialect/operator/utils', ) ) + list( find_files( '*.h', paddle_source_dir + '/paddle/fluid/pir/dialect/kernel/ir', ) ) + list( find_files( '*.h', paddle_source_dir + '/paddle/pir/include/core', ) ) + list( find_files( 'pd_op_to_kernel_pass.h', paddle_source_dir + '/paddle/fluid/pir/transforms', ) ) + list( find_files( 'custom_engine_ext.h', paddle_source_dir + '/paddle/fluid/custom_engine', ) ) + list( find_files( 'pir_adaptor_util.h', paddle_source_dir + '/paddle/fluid/framework/new_executor/pir_adaptor', ) ) + list( find_files( 'custom_engine_instruction.h', paddle_source_dir + '/paddle/fluid/framework/new_executor/instruction', ) ) + list( find_files( 'instruction_defs.h', paddle_source_dir + '/paddle/fluid/framework/new_executor/instruction', ) ) + list( find_files( 'instruction_base.h', paddle_source_dir + '/paddle/fluid/framework/new_executor/instruction', ) ) + list( find_files( 'sub_graph_detector.h', paddle_source_dir + '/paddle/fluid/pir/transforms', ) ) + list( find_files( '*.h', paddle_source_dir + '/paddle/fluid/distributed/collective', ) ) ) jit_layer_headers = [ 'layer.h', 'serializer.h', 'serializer_utils.h', 'all.h', 'function.h', ] for f in jit_layer_headers: headers += list( find_files( f, paddle_source_dir + '/paddle/fluid/jit', recursive=True ) ) if env_dict.get("WITH_ONEDNN") == 'ON': headers += list( find_files( '*', env_dict.get("ONEDNN_INSTALL_DIR") + '/include', recursive=True, ) ) # mkldnn if env_dict.get("WITH_OPENVINO") == 'ON': headers += list( find_files('*', env_dict.get("OPENVINO_INC_DIR")) ) # openvino headers += list( find_files('*', env_dict.get("TBB_INC_DIR")) ) # openvino if env_dict.get("WITH_GPU") == 'ON' or env_dict.get("WITH_ROCM") == 'ON': # externalErrorMsg.pb for External Error message headers += list( find_files('*.pb', env_dict.get("externalError_INCLUDE_DIR")) ) headers += list( find_files( '*.h', paddle_source_dir + '/paddle/phi/backends', recursive=True, ) ) if env_dict.get("WITH_XPU") == 'ON': headers += [ h for h in find_files( '*.h', paddle_binary_dir + '/third_party/xpu/src/extern_xpu/xpu', recursive=True, ) if '/include/xpu/kernel/' not in h ] # xdnn api headers headers += list( find_files( '*.hpp', paddle_binary_dir + '/third_party/xpu/src/extern_xpu/xpu', recursive=True, ) ) # xre headers with .hpp extension headers += list( find_files('*.h', paddle_source_dir + '/paddle/phi/backends/cpu') ) headers += list( find_files('*.h', paddle_source_dir + '/paddle/phi/backends/xpu') ) headers += list( find_files( '*.h', paddle_source_dir + '/paddle/phi/backends/dynload' ) ) headers += list( find_files('*.h', paddle_source_dir + '/paddle/phi/backends/onednn') ) if ( env_dict.get("WITH_GPU") == 'ON' and tuple(map(int, env_dict.get("CUDA_VERSION").split('.'))) >= (12, 9) and env_dict.get("COMPILED_CUDA_ARCHS").find("90") != -1 ): headers += list( find_files( '*.hpp', paddle_source_dir + '/paddle/fluid/fp8/deep_gemm/include/cute/', recursive=True, ) ) headers += list( find_files( '*.h', paddle_source_dir + '/paddle/fluid/fp8/deep_gemm/include/cutlass/', recursive=True, ) ) headers += list( find_files( '*.hpp', paddle_source_dir + '/paddle/fluid/fp8/deep_gemm/include/cutlass/', recursive=True, ) ) headers += list( find_files( '*.cuh', paddle_source_dir + '/paddle/fluid/fp8/deep_gemm/include/deep_gemm', recursive=True, ) ) if ( env_dict.get("WITH_GPU") == 'OFF' and env_dict.get("WITH_ROCM") == 'OFF' and env_dict.get("WITH_XPU") == 'OFF' ): # Custom Device headers += list( find_files('*.h', paddle_source_dir + '/paddle/phi/backends/cpu') ) headers += list( find_files('*.h', paddle_source_dir + '/paddle/phi/backends/custom') ) headers += list( find_files( '*.h', paddle_source_dir + '/paddle/phi/backends/gpu', recursive=True, ) ) headers += list( find_files('*.h', paddle_source_dir + '/paddle/phi/backends/onednn') ) headers += [ os.path.join( paddle_source_dir, 'paddle/phi/backends/dynload/afs_api.h' ), os.path.join( paddle_source_dir, 'paddle/phi/backends/dynload/dynamic_loader.h', ), os.path.join( paddle_source_dir, 'paddle/phi/backends/dynload/mklml.h' ), os.path.join( paddle_source_dir, 'paddle/phi/backends/dynload/mklrt.h' ), os.path.join( paddle_source_dir, 'paddle/phi/backends/dynload/lapack.h' ), os.path.join( paddle_source_dir, 'paddle/phi/backends/dynload/hml.h' ), ] else: headers += list( find_files('*.h', paddle_source_dir + '/paddle/phi/backends/cpu') ) headers += list( find_files('*.h', paddle_source_dir + '/paddle/phi/backends/onednn') ) headers += [ os.path.join( paddle_source_dir, 'paddle/phi/backends/dynload/afs_api.h' ), os.path.join( paddle_source_dir, 'paddle/phi/backends/dynload/dynamic_loader.h', ), os.path.join( paddle_source_dir, 'paddle/phi/backends/dynload/mklml.h' ), os.path.join( paddle_source_dir, 'paddle/phi/backends/dynload/mklrt.h' ), os.path.join( paddle_source_dir, 'paddle/phi/backends/dynload/lapack.h' ), os.path.join( paddle_source_dir, 'paddle/phi/backends/dynload/hml.h' ), ] # pybind headers headers += list(find_files('*.h', env_dict.get("PYBIND_INCLUDE_DIR"), True)) return headers def get_setup_parameters(): # get setup_requires setup_requires = get_setup_requires() if ( env_dict.get("WITH_GPU") == 'ON' and platform.system() in ('Linux', 'Windows') and platform.machine() in ( 'x86_64', 'AMD64', ) ): paddle_cuda_requires, paddle_tensorrt_requires = ( get_paddle_extra_install_requirements() ) setup_requires += paddle_cuda_requires setup_requires += paddle_tensorrt_requires packages = [ 'paddle', 'paddle.libs', 'paddle.utils', 'paddle.utils.data', 'paddle.utils.data._utils', 'paddle.utils.gast', 'paddle.utils.cpp_extension', 'paddle.dataset', 'paddle.reader', 'paddle.distributed', 'paddle.distributed.flex_checkpoint', 'paddle.distributed.flex_checkpoint.aoa', 'paddle.distributed.flex_checkpoint.dcp', 'paddle.distributed.communication', 'paddle.distributed.communication.stream', 'paddle.distributed.metric', 'paddle.distributed.ps', 'paddle.distributed.ps.utils', 'paddle.incubate', 'paddle.incubate.cc.ap', 'paddle.incubate.cc.tools', 'paddle.apy', 'paddle.incubate.autograd', 'paddle.incubate.optimizer', 'paddle.incubate.checkpoint', 'paddle.incubate.operators', 'paddle.incubate.tensor', 'paddle.incubate.multiprocessing', 'paddle.incubate.nn', 'paddle.incubate.jit', 'paddle.incubate.asp', 'paddle.incubate.passes', 'paddle.incubate.framework', 'paddle.distribution', 'paddle.distributed.utils', 'paddle.distributed.sharding', 'paddle.distributed.fsdp', 'paddle.distributed.fleet', 'paddle.distributed.auto_tuner', 'paddle.distributed.launch', 'paddle.distributed.launch.context', 'paddle.distributed.launch.controllers', 'paddle.distributed.launch.job', 'paddle.distributed.launch.plugins', 'paddle.distributed.launch.utils', 'paddle.distributed.fleet.base', 'paddle.distributed.fleet.recompute', 'paddle.distributed.fleet.elastic', 'paddle.distributed.fleet.meta_optimizers', 'paddle.distributed.fleet.meta_optimizers.sharding', 'paddle.distributed.fleet.meta_optimizers.dygraph_optimizer', 'paddle.distributed.fleet.runtime', 'paddle.distributed.rpc', 'paddle.distributed.fleet.dataset', 'paddle.distributed.fleet.data_generator', 'paddle.distributed.fleet.metrics', 'paddle.distributed.fleet.proto', 'paddle.distributed.fleet.utils', 'paddle.distributed.fleet.layers', 'paddle.distributed.fleet.layers.mpu', 'paddle.distributed.fleet.meta_parallel', 'paddle.distributed.fleet.meta_parallel.pp_utils', 'paddle.distributed.fleet.meta_parallel.sharding', 'paddle.distributed.fleet.meta_parallel.parallel_layers', 'paddle.distributed.auto_parallel', 'paddle.distributed.auto_parallel.intermediate', 'paddle.distributed.auto_parallel.pipelining', 'paddle.distributed.auto_parallel.dygraph', 'paddle.distributed.auto_parallel.static', 'paddle.distributed.auto_parallel.static.operators', 'paddle.distributed.auto_parallel.static.tuner', 'paddle.distributed.auto_parallel.static.cost', 'paddle.distributed.auto_parallel.static.reshard_funcs', 'paddle.distributed.passes', 'paddle.distributed.passes.pipeline_scheduler_pass', 'paddle.distributed.models', 'paddle.distributed.models.moe', 'paddle.distributed.transpiler', 'paddle.distributed.transpiler.details', 'paddle.framework', 'paddle.jit', 'paddle.jit.dy2static', 'paddle.jit.dy2static.transformers', 'paddle.jit.sot', 'paddle.jit.sot.opcode_translator', 'paddle.jit.sot.opcode_translator.executor', 'paddle.jit.sot.opcode_translator.executor.variables', 'paddle.jit.sot.opcode_translator.instruction_utils', 'paddle.jit.sot.profiler', 'paddle.jit.sot.symbolic', 'paddle.jit.sot.symbolic_shape', 'paddle.jit.sot.utils', 'paddle.inference', 'paddle.inference.contrib', 'paddle.inference.contrib.utils', 'paddle.base', 'paddle.base.dygraph', 'paddle.base.proto', 'paddle.base.proto.profiler', 'paddle.base.layers', 'paddle.base.incubate', 'paddle.incubate.distributed.fleet', 'paddle.base.incubate.checkpoint', 'paddle.amp', 'paddle.cost_model', 'paddle.cinn_config', 'paddle.hapi', 'paddle.vision', 'paddle.vision.models', 'paddle.vision.transforms', 'paddle.vision.datasets', 'paddle.audio', 'paddle.audio.functional', 'paddle.audio.features', 'paddle.audio.datasets', 'paddle.audio.backends', 'paddle.text', 'paddle.text.datasets', 'paddle.incubate', 'paddle.incubate.cc', 'paddle.incubate.cc.ap', 'paddle.incubate.nn', 'paddle.incubate.jit', 'paddle.incubate.nn.functional', 'paddle.incubate.nn.layer', 'paddle.incubate.optimizer.functional', 'paddle.incubate.autograd', 'paddle.incubate.distributed', 'paddle.incubate.distributed.utils', 'paddle.incubate.distributed.utils.io', 'paddle.incubate.distributed.fleet', 'paddle.incubate.distributed.models', 'paddle.incubate.distributed.models.moe', 'paddle.incubate.distributed.models.moe.gate', 'paddle.incubate.distributed.fleet.parameter_server', 'paddle.incubate.distributed.fleet.parameter_server.distribute_transpiler', 'paddle.incubate.distributed.fleet.parameter_server.ir', 'paddle.incubate.distributed.fleet.parameter_server.pslib', 'paddle.incubate.layers', 'paddle.quantization', 'paddle.quantization.quanters', 'paddle.quantization.observers', 'paddle.sparse', 'paddle.sparse.nn', 'paddle.sparse.nn.layer', 'paddle.sparse.nn.functional', 'paddle.incubate.xpu', 'paddle.io', 'paddle.io.dataloader', 'paddle.optimizer', 'paddle.nn', 'paddle.nn.attention', 'paddle.nn.functional', 'paddle.nn.layer', 'paddle.nn.modules', 'paddle.nn.quant', 'paddle.nn.quant.qat', 'paddle.nn.initializer', 'paddle.nn.utils', 'paddle.metric', 'paddle.static', 'paddle.static.nn', 'paddle.static.amp', 'paddle.static.amp.bf16', 'paddle.static.quantization', 'paddle.quantization', 'paddle.quantization.imperative', 'paddle.tensor', 'paddle.compat', 'paddle.compat.nn', 'paddle.compat.nn.functional', 'paddle.onnx', 'paddle.autograd', 'paddle.cuda', 'paddle.device', 'paddle.device.cuda', 'paddle.device.xpu', 'paddle.version', 'paddle.profiler', 'paddle.geometric', 'paddle.geometric.message_passing', 'paddle.geometric.sampling', 'paddle.pir', 'paddle.decomposition', 'paddle._typing', 'paddle._typing.libs', 'paddle.api_tracer', 'paddle.testing', ] custom_device_dir = ( env_dict.get("PADDLE_BINARY_DIR") + '/python/paddle/paddle_custom_device' ) if os.path.isdir(custom_device_dir): packages.append('paddle.paddle_custom_device') if ( env_dict.get("WITH_GPU") == 'ON' and env_dict.get("COMPILED_CUDA_ARCHS") and env_dict.get("COMPILED_CUDA_ARCHS").find("90") != -1 ): packages.extend(['paddle.distributed.communication.deep_ep']) if ( env_dict.get("WITH_XPU") == 'ON' and env_dict.get("WITH_XPU_XRE5") == 'ON' ): packages.extend(['paddle.distributed.communication.deep_ep']) if ( env_dict.get("WITH_GPU") == 'ON' and tuple(map(int, env_dict.get("CUDA_VERSION").split('.'))) >= (12, 9) and env_dict.get("COMPILED_CUDA_ARCHS").find("90") != -1 ): packages.extend(['paddle.incubate.fp8.deep_gemm']) packages.extend(['paddle.incubate.fp8.deep_gemm.jit']) packages.extend(['paddle.incubate.fp8.deep_gemm.jit_kernels']) if env_dict.get("WITH_TENSORRT") == 'ON': packages.extend( [ 'paddle.tensorrt', 'paddle.tensorrt.impls', ] ) paddle_bins = '' if not env_dict.get("WIN32"): paddle_bins = [ env_dict.get("PADDLE_BINARY_DIR") + '/paddle/scripts/paddle' ] package_data, package_dir, ext_modules = get_package_data_and_package_dir() headers = get_headers() return ( setup_requires, packages, paddle_bins, package_data, package_dir, ext_modules, headers, ) def check_build_dependency(): missing_modules = '''Missing build dependency: {dependency} Please run 'pip install -r python/requirements.txt' to make sure you have all the dependencies installed. '''.strip() with open(TOP_DIR + '/python/requirements.txt') as f: build_dependencies = ( f.read().splitlines() ) # Specify the dependencies to install python_dependencies_module = [] installed_packages = [] def normalize_package_name(package_name: str) -> str: return package_name.replace("_", "-").lower() def eval_marker(marker_str): """Simple evaluation of PEP 508 environment markers.""" if not marker_str: return True marker_str = marker_str.strip() # Build environment dict env_markers = { 'python_version': (sys.version_info.major, sys.version_info.minor), 'python_full_version': ( sys.version_info.major, sys.version_info.minor, sys.version_info.micro, ), 'platform_system': f'"{platform.system()}"', 'platform_machine': f'"{platform.machine()}"', 'sys_platform': f'"{sys.platform}"', } # Marker evaluation try: eval_str = marker_str # Replace marker variables with their values for key, value in env_markers.items(): eval_str = eval_str.replace(key, str(value)) def version_to_tuple(match): version_str = match.group(1) parts = version_str.split('.') return '(' + ', '.join(parts) + ')' eval_str = re.sub( r'["\'](\d+(?:\.\d+)*)["\']', version_to_tuple, eval_str ) return eval(eval_str) except Exception as e: raise RuntimeError(f"Failed to evaluate marker '{marker_str}': {e}") for dependency in build_dependencies: dependency = dependency.strip() if not dependency or dependency.startswith('#'): continue # Split dependency spec and environment marker if ';' in dependency: dependency_spec, marker = dependency.split(';', 1) dependency_spec = dependency_spec.strip() marker = marker.strip() # Evaluate marker - skip if not applicable to current environment if not eval_marker(marker): continue else: dependency_spec = dependency # Remove version specifiers from dependency spec dependency_name = re.sub( r"==.*|>=.*|<=.*|~=.*|!=.*", '', dependency_spec ).strip() python_dependencies_module.append( normalize_package_name(dependency_name) ) reqs = subprocess.check_output([sys.executable, '-m', 'pip', 'freeze']) for r in reqs.split(): installed_packages.append( normalize_package_name(r.decode().split('==')[0]) ) for dependency in python_dependencies_module: if dependency.lower() not in installed_packages: raise RuntimeError(missing_modules.format(dependency=dependency)) def install_cpp_dist_and_build_test(install_dir, lib_test_dir, headers, libs): """install cpp distribution and build test target TODO(huangjiyi): 1. This function will be moved when separating C++ distribution installation from python package installation. 2. Reduce the header and library files to be installed. """ if env_dict.get("CMAKE_BUILD_TYPE") != 'Release': return os.makedirs(install_dir, exist_ok=True) # install C++ header files for header in headers: header_install_dir = get_header_install_dir(header) header_install_dir = os.path.join( install_dir, 'include', os.path.dirname(header_install_dir) ) os.makedirs(header_install_dir, exist_ok=True) shutil.copy(header, header_install_dir) # install C++ shared libraries lib_install_dir = os.path.join(install_dir, 'lib') os.makedirs(lib_install_dir, exist_ok=True) # install libpaddle.ext paddle_libs = glob.glob( paddle_binary_dir + '/paddle/fluid/pybind/' + env_dict.get("FLUID_CORE_NAME") + '.*' ) for lib in paddle_libs: shutil.copy(lib, lib_install_dir) # install dependent libraries libs_path = paddle_binary_dir + '/python/paddle/libs' for lib in libs: lib_path = os.path.join(libs_path, lib) shutil.copy(lib_path, lib_install_dir) # build test target cmake_args = [CMAKE, lib_test_dir, "-B", lib_test_dir] if os.getenv("GENERATOR") == "Ninja": cmake_args.append("-GNinja") subprocess.check_call(cmake_args) subprocess.check_call([CMAKE, "--build", lib_test_dir]) def check_submodules(): def get_submodule_folder(): git_submodules_path = os.path.join(TOP_DIR, ".gitmodules") with open(git_submodules_path) as f: return [ os.path.join(TOP_DIR, line.split("=", 1)[1].strip()) for line in f if line.strip().startswith("path") ] def submodules_not_exists_or_empty(folder): return not os.path.exists(folder) or ( os.path.isdir(folder) and len(os.listdir(folder)) == 0 ) submodule_folders = get_submodule_folder() # f none of the submodule folders exists, try to initialize them if any( submodules_not_exists_or_empty(folder) for folder in submodule_folders ): try: print(' --- Trying to initialize submodules') start = time.time() subprocess.check_call( ["git", "submodule", "update", "--init", "--recursive"], cwd=TOP_DIR, ) end = time.time() print(f' --- Submodule initialization took {end - start:.2f} sec') except Exception: print(' --- Submodule initialization failed') print('Please run:\n\tgit submodule update --init --recursive') sys.exit(1) def generate_stub_files(paddle_binary_dir, paddle_source_dir): script_path = paddle_source_dir + '/tools/' sys.path.append(script_path) print('-' * 2, 'Generate stub file tensor.pyi ... ') import gen_tensor_stub gen_tensor_stub.generate_stub_file( input_file=paddle_source_dir + '/python/paddle/tensor/tensor.prototype.pyi', output_file=paddle_binary_dir + '/python/paddle/tensor/tensor.pyi', ) shutil.copy( paddle_binary_dir + '/python/paddle/tensor/tensor.pyi', paddle_source_dir + '/python/paddle/tensor/tensor.pyi', ) print('-' * 2, 'End Generate stub file tensor.pyi ... ') print('-' * 2, 'Generate stub file for python binding APIs ... ') import gen_pybind11_stub gen_pybind11_stub.generate_stub_file( output_dir=str(Path(paddle_binary_dir) / 'python/paddle/_typing/libs/'), module_name='paddle.base.libpaddle', ignore_all_errors=True, ops_yaml=[ paddle_source_dir + "/paddle/phi/ops/yaml/ops.yaml;paddle.base.libpaddle.eager.ops", paddle_source_dir + "/paddle/phi/ops/yaml/ops.yaml;paddle.base.libpaddle.pir.ops", paddle_source_dir + "/paddle/phi/ops/yaml/sparse_ops.yaml;paddle.base.libpaddle.eager.ops;sparse", paddle_source_dir + "/paddle/phi/ops/yaml/sparse_ops.yaml;paddle.base.libpaddle.pir.ops;sparse", paddle_source_dir + "/paddle/phi/ops/yaml/strings_ops.yaml;paddle.base.libpaddle.eager.ops;strings", paddle_source_dir + "/paddle/phi/ops/yaml/strings_ops.yaml;paddle.base.libpaddle.pir.ops;strings", ], python_api_info_yaml_path=paddle_source_dir + "/paddle/phi/ops/yaml/python_api_info.yaml", ) libpaddle_dst = paddle_source_dir + '/python/paddle/_typing/libs/libpaddle' if Path(libpaddle_dst).exists(): shutil.rmtree(libpaddle_dst) shutil.copytree( paddle_binary_dir + '/python/paddle/_typing/libs/libpaddle', libpaddle_dst, ) print('-' * 2, 'End Generate stub for python binding APIs ... ') def main(): # Parse the command line and check arguments before we proceed with building steps and setup parse_input_command(filter_args_list) # check build dependency check_build_dependency() check_submodules() # Execute the build process,cmake and make if cmake_and_build: build_steps() if os.getenv("WITH_PYTHON") == "OFF": print("only compile, not package") return build_dir = os.getenv("BUILD_DIR") if build_dir is not None: env_dict_path = TOP_DIR + '/' + build_dir + '/python' else: env_dict_path = TOP_DIR + "/build/python/" sys.path.insert(1, env_dict_path) from env_dict import env_dict global env_dict # noqa: F811 global paddle_binary_dir, paddle_source_dir paddle_binary_dir = env_dict.get("PADDLE_BINARY_DIR") paddle_source_dir = env_dict.get("PADDLE_SOURCE_DIR") # preparing parameters for setup() paddle_version = env_dict.get("PADDLE_VERSION") package_name = env_dict.get("PACKAGE_NAME") write_version_py( filename=f'{paddle_binary_dir}/python/paddle/version/__init__.py' ) write_cuda_env_config_py( filename=f'{paddle_binary_dir}/python/paddle/cuda_env.py' ) write_parameter_server_version_py( filename=f'{paddle_binary_dir}/python/paddle/incubate/distributed/fleet/parameter_server/version.py' ) ( setup_requires, packages, scripts, package_data, package_dir, ext_modules, headers, ) = get_setup_parameters() # Log for PYPI, get long_description of setup() with open( paddle_source_dir + '/python/paddle/README.md', "r", encoding='UTF-8' ) as f: long_description = f.read() # strip *.so to reduce package size if env_dict.get("WITH_STRIP") == 'ON': command = ( 'find ' + shlex.quote(paddle_binary_dir) + '/python/paddle -name "*.so" | xargs -i strip {}' ) if os.system(command) != 0: raise Exception(f"strip *.so failed, command: {command}") # install cpp distribution if env_dict.get("WITH_CPP_DIST") == 'ON': paddle_install_dir = env_dict.get("PADDLE_INSTALL_DIR") paddle_lib_test_dir = env_dict.get("PADDLE_LIB_TEST_DIR") install_cpp_dist_and_build_test( paddle_install_dir, paddle_lib_test_dir, headers, package_data['paddle.libs'], ) # generate stub file `tensor.pyi` if os.getenv("SKIP_STUB_GEN", '').lower() not in [ 'y', 'yes', 't', 'true', 'on', '1', ]: generate_stub_files(paddle_binary_dir, paddle_source_dir) # package stub files packages, package_data = extend_type_hints_package_data( packages, package_data, paddle_binary_dir ) setup( name=package_name, version=paddle_version, description='Parallel Distributed Deep Learning', long_description=long_description, long_description_content_type="text/markdown", author_email="Paddle-better@baidu.com", maintainer="PaddlePaddle", maintainer_email="Paddle-better@baidu.com", url='https://www.paddlepaddle.org.cn/', download_url='https://github.com/paddlepaddle/paddle', license='Apache Software License', packages=packages, install_requires=setup_requires, ext_modules=ext_modules, package_data=package_data, package_dir=package_dir, scripts=scripts, distclass=BinaryDistribution, headers=headers, cmdclass={ 'install_headers': InstallHeaders, 'install': InstallCommand, 'egg_info': EggInfo, 'install_lib': InstallLib, 'develop': DevelopCommand, }, entry_points={ 'console_scripts': [ 'fleetrun = paddle.distributed.launch.main:launch' ] }, classifiers=[ 'Development Status :: 5 - Production/Stable', 'Operating System :: OS Independent', 'Intended Audience :: Developers', 'Intended Audience :: Education', 'Intended Audience :: Science/Research', 'License :: OSI Approved :: Apache Software License', 'Programming Language :: C++', 'Programming Language :: Python :: 3.9', 'Programming Language :: Python :: 3.10', 'Programming Language :: Python :: 3.11', 'Programming Language :: Python :: 3.12', 'Programming Language :: Python :: 3.13', 'Typing :: Typed', ], ) if __name__ == '__main__': main()