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setup.py
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setup.py
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# ------------------------------------------------------------------------
# Copyright (c) Microsoft Corporation. All rights reserved.
# Licensed under the MIT License.
# ------------------------------------------------------------------------
# pylint: disable=C0103
import datetime
import logging
import platform
import shlex
import subprocess
import sys
from glob import glob, iglob
from os import environ, getcwd, path, popen, remove
from pathlib import Path
from shutil import copyfile
from packaging.tags import sys_tags
from setuptools import Extension, setup
from setuptools.command.build_ext import build_ext as _build_ext
from setuptools.command.install import install as InstallCommandBase
nightly_build = False
package_name = "onnxruntime"
wheel_name_suffix = None
logger = logging.getLogger()
def parse_arg_remove_boolean(argv, arg_name):
arg_value = False
if arg_name in sys.argv:
arg_value = True
argv.remove(arg_name)
return arg_value
def parse_arg_remove_string(argv, arg_name_equal):
arg_value = None
for arg in sys.argv[1:]:
if arg.startswith(arg_name_equal):
arg_value = arg[len(arg_name_equal) :]
sys.argv.remove(arg)
break
return arg_value
# Any combination of the following arguments can be applied
if parse_arg_remove_boolean(sys.argv, "--nightly_build"):
package_name = "ort-nightly"
nightly_build = True
wheel_name_suffix = parse_arg_remove_string(sys.argv, "--wheel_name_suffix=")
cuda_version = None
rocm_version = None
is_migraphx = False
is_rocm = False
is_openvino = False
# The following arguments are mutually exclusive
if wheel_name_suffix == "gpu":
# TODO: how to support multiple CUDA versions?
cuda_version = parse_arg_remove_string(sys.argv, "--cuda_version=")
elif parse_arg_remove_boolean(sys.argv, "--use_rocm"):
is_rocm = True
rocm_version = parse_arg_remove_string(sys.argv, "--rocm_version=")
elif parse_arg_remove_boolean(sys.argv, "--use_migraphx"):
is_migraphx = True
elif parse_arg_remove_boolean(sys.argv, "--use_openvino"):
is_openvino = True
package_name = "onnxruntime-openvino"
elif parse_arg_remove_boolean(sys.argv, "--use_dnnl"):
package_name = "onnxruntime-dnnl"
elif parse_arg_remove_boolean(sys.argv, "--use_tvm"):
package_name = "onnxruntime-tvm"
elif parse_arg_remove_boolean(sys.argv, "--use_vitisai"):
package_name = "onnxruntime-vitisai"
elif parse_arg_remove_boolean(sys.argv, "--use_acl"):
package_name = "onnxruntime-acl"
elif parse_arg_remove_boolean(sys.argv, "--use_armnn"):
package_name = "onnxruntime-armnn"
elif parse_arg_remove_boolean(sys.argv, "--use_cann"):
package_name = "onnxruntime-cann"
elif parse_arg_remove_boolean(sys.argv, "--use_azure"):
# keep the same name since AzureEP will release with CpuEP by default.
pass
elif parse_arg_remove_boolean(sys.argv, "--use_qnn"):
package_name = "onnxruntime-qnn"
if is_rocm or is_migraphx:
package_name = "onnxruntime-rocm" if not nightly_build else "ort-rocm-nightly"
# PEP 513 defined manylinux1_x86_64 and manylinux1_i686
# PEP 571 defined manylinux2010_x86_64 and manylinux2010_i686
# PEP 599 defines the following platform tags:
# manylinux2014_x86_64
# manylinux2014_i686
# manylinux2014_aarch64
# manylinux2014_armv7l
# manylinux2014_ppc64
# manylinux2014_ppc64le
# manylinux2014_s390x
manylinux_tags = [
"manylinux1_x86_64",
"manylinux1_i686",
"manylinux2010_x86_64",
"manylinux2010_i686",
"manylinux2014_x86_64",
"manylinux2014_i686",
"manylinux2014_aarch64",
"manylinux2014_armv7l",
"manylinux2014_ppc64",
"manylinux2014_ppc64le",
"manylinux2014_s390x",
"manylinux_2_28_x86_64",
"manylinux_2_28_aarch64",
]
is_manylinux = environ.get("AUDITWHEEL_PLAT", None) in manylinux_tags
class build_ext(_build_ext): # noqa: N801
def build_extension(self, ext):
dest_file = self.get_ext_fullpath(ext.name)
logger.info("copying %s -> %s", ext.sources[0], dest_file)
copyfile(ext.sources[0], dest_file)
try:
from wheel.bdist_wheel import bdist_wheel as _bdist_wheel
class bdist_wheel(_bdist_wheel): # noqa: N801
"""Helper functions to create wheel package"""
if is_openvino and is_manylinux:
def get_tag(self):
_, _, plat = _bdist_wheel.get_tag(self)
if platform.system() == "Linux":
# Get the right platform tag by querying the linker version
glibc_major, glibc_minor = popen("ldd --version | head -1").read().split()[-1].split(".")
"""# See https://github.com/mayeut/pep600_compliance/blob/master/
pep600_compliance/tools/manylinux-policy.json"""
if glibc_major == "2" and glibc_minor == "17":
plat = "manylinux_2_17_x86_64.manylinux2014_x86_64"
else: # For manylinux2014 and above, no alias is required
plat = f"manylinux_{glibc_major}_{glibc_minor}_x86_64"
tags = next(sys_tags())
return (tags.interpreter, tags.abi, plat)
def finalize_options(self):
_bdist_wheel.finalize_options(self)
if not is_manylinux:
self.root_is_pure = False
def _rewrite_ld_preload(self, to_preload):
with open("onnxruntime/capi/_ld_preload.py", "a") as f:
if len(to_preload) > 0:
f.write("from ctypes import CDLL, RTLD_GLOBAL\n")
for library in to_preload:
f.write('_{} = CDLL("{}", mode=RTLD_GLOBAL)\n'.format(library.split(".")[0], library))
def _rewrite_ld_preload_cuda(self, to_preload):
with open("onnxruntime/capi/_ld_preload.py", "a") as f:
if len(to_preload) > 0:
f.write("from ctypes import CDLL, RTLD_GLOBAL\n")
f.write("try:\n")
for library in to_preload:
f.write(' _{} = CDLL("{}", mode=RTLD_GLOBAL)\n'.format(library.split(".")[0], library))
f.write("except OSError:\n")
f.write(" import os\n")
f.write(' os.environ["ORT_CUDA_UNAVAILABLE"] = "1"\n')
def _rewrite_ld_preload_tensorrt(self, to_preload):
with open("onnxruntime/capi/_ld_preload.py", "a", encoding="ascii") as f:
if len(to_preload) > 0:
f.write("from ctypes import CDLL, RTLD_GLOBAL\n")
f.write("try:\n")
for library in to_preload:
f.write(' _{} = CDLL("{}", mode=RTLD_GLOBAL)\n'.format(library.split(".")[0], library))
f.write("except OSError:\n")
f.write(" import os\n")
f.write(' os.environ["ORT_TENSORRT_UNAVAILABLE"] = "1"\n')
def run(self):
if is_manylinux:
source = "onnxruntime/capi/onnxruntime_pybind11_state.so"
dest = "onnxruntime/capi/onnxruntime_pybind11_state_manylinux1.so"
logger.info("copying %s -> %s", source, dest)
copyfile(source, dest)
to_preload = []
to_preload_cuda = []
to_preload_tensorrt = []
to_preload_cann = []
cuda_dependencies = [
"libcublas.so.11",
"libcublas.so.12",
"libcublasLt.so.11",
"libcublasLt.so.12",
"libcudart.so.11.0",
"libcudart.so.12",
"libcudnn.so.8",
"libcudnn.so.9",
"libcufft.so.10",
"libcufft.so.11",
"libcurand.so.10",
]
rocm_dependencies = [
"libamd_comgr.so.2",
"libamdhip64.so.5",
"libamdhip64.so.6",
"libdrm.so.2",
"libdrm_amdgpu.so.1",
"libelf.so.1",
"libhipfft.so.0",
"libhiprtc.so.5",
"libhiprtc.so.6",
"libhsa-runtime64.so.1",
"libMIOpen.so.1",
"libnuma.so.1",
"librccl.so.1",
"librocblas.so.3",
"librocblas.so.4",
"librocfft.so.0",
"libroctx64.so.4",
"librocm_smi64.so.5",
"librocm_smi64.so.6",
"libroctracer64.so.4",
"libtinfo.so.6",
"libmigraphx_c.so.3",
"libmigraphx.so.2",
"libmigraphx_onnx.so.2",
"libmigraphx_tf.so.2",
]
tensorrt_dependencies = ["libnvinfer.so.10", "libnvinfer_plugin.so.10", "libnvonnxparser.so.10"]
cann_dependencies = ["libascendcl.so", "libacl_op_compiler.so", "libfmk_onnx_parser.so"]
dest = "onnxruntime/capi/libonnxruntime_providers_openvino.so"
if path.isfile(dest):
subprocess.run(
["patchelf", "--set-rpath", "$ORIGIN", dest, "--force-rpath"],
check=True,
stdout=subprocess.PIPE,
text=True,
)
self._rewrite_ld_preload(to_preload)
self._rewrite_ld_preload_cuda(to_preload_cuda)
self._rewrite_ld_preload_tensorrt(to_preload_tensorrt)
self._rewrite_ld_preload(to_preload_cann)
else:
pass
_bdist_wheel.run(self)
if is_manylinux and not disable_auditwheel_repair and not is_openvino:
assert self.dist_dir is not None
file = glob(path.join(self.dist_dir, "*linux*.whl"))[0]
logger.info("repairing %s for manylinux1", file)
auditwheel_cmd = ["auditwheel", "-v", "repair", "-w", self.dist_dir, file]
for i in cuda_dependencies + rocm_dependencies + tensorrt_dependencies + cann_dependencies:
auditwheel_cmd += ["--exclude", i]
logger.info("Running %s", " ".join([shlex.quote(arg) for arg in auditwheel_cmd]))
try:
subprocess.run(auditwheel_cmd, check=True, stdout=subprocess.PIPE)
finally:
logger.info("removing %s", file)
remove(file)
except ImportError as error:
print("Error importing dependencies:")
print(error)
bdist_wheel = None
class InstallCommand(InstallCommandBase):
def finalize_options(self):
ret = InstallCommandBase.finalize_options(self)
self.install_lib = self.install_platlib
return ret
providers_cuda_or_rocm = "onnxruntime_providers_" + ("rocm" if is_rocm else "cuda")
providers_tensorrt_or_migraphx = "onnxruntime_providers_" + ("migraphx" if is_migraphx else "tensorrt")
providers_openvino = "onnxruntime_providers_openvino"
providers_cann = "onnxruntime_providers_cann"
if platform.system() == "Linux":
providers_cuda_or_rocm = "lib" + providers_cuda_or_rocm + ".so"
providers_tensorrt_or_migraphx = "lib" + providers_tensorrt_or_migraphx + ".so"
providers_openvino = "lib" + providers_openvino + ".so"
providers_cann = "lib" + providers_cann + ".so"
elif platform.system() == "Windows":
providers_cuda_or_rocm = providers_cuda_or_rocm + ".dll"
providers_tensorrt_or_migraphx = providers_tensorrt_or_migraphx + ".dll"
providers_openvino = providers_openvino + ".dll"
providers_cann = providers_cann + ".dll"
# Additional binaries
dl_libs = []
libs = []
if platform.system() == "Linux":
libs = [
"onnxruntime_pybind11_state.so",
"libdnnl.so.2",
"libmklml_intel.so",
"libmklml_gnu.so",
"libiomp5.so",
"mimalloc.so",
"libonnxruntime.so*",
]
dl_libs = ["libonnxruntime_providers_shared.so"]
dl_libs.append(providers_cuda_or_rocm)
dl_libs.append(providers_tensorrt_or_migraphx)
dl_libs.append(providers_cann)
dl_libs.append("libonnxruntime.so*")
# DNNL, TensorRT & OpenVINO EPs are built as shared libs
libs.extend(["libonnxruntime_providers_shared.so"])
libs.extend(["libonnxruntime_providers_dnnl.so"])
libs.extend(["libonnxruntime_providers_openvino.so"])
libs.extend(["libonnxruntime_providers_vitisai.so"])
libs.append(providers_cuda_or_rocm)
libs.append(providers_tensorrt_or_migraphx)
libs.append(providers_cann)
if nightly_build:
libs.extend(["libonnxruntime_pywrapper.so"])
elif platform.system() == "Darwin":
libs = [
"onnxruntime_pybind11_state.so",
"libdnnl.2.dylib",
"mimalloc.so",
"libonnxruntime.dylib*",
] # TODO add libmklml and libiomp5 later.
# DNNL & TensorRT EPs are built as shared libs
libs.extend(["libonnxruntime_providers_shared.dylib"])
libs.extend(["libonnxruntime_providers_dnnl.dylib"])
libs.extend(["libonnxruntime_providers_tensorrt.dylib"])
libs.extend(["libonnxruntime_providers_cuda.dylib"])
libs.extend(["libonnxruntime_providers_vitisai.dylib"])
if nightly_build:
libs.extend(["libonnxruntime_pywrapper.dylib"])
else:
libs = [
"onnxruntime_pybind11_state.pyd",
"dnnl.dll",
"mklml.dll",
"libiomp5md.dll",
providers_cuda_or_rocm,
providers_tensorrt_or_migraphx,
providers_cann,
"onnxruntime.dll",
]
# DNNL, TensorRT & OpenVINO EPs are built as shared libs
libs.extend(["onnxruntime_providers_shared.dll"])
libs.extend(["onnxruntime_providers_dnnl.dll"])
libs.extend(["onnxruntime_providers_tensorrt.dll"])
libs.extend(["onnxruntime_providers_openvino.dll"])
libs.extend(["onnxruntime_providers_cuda.dll"])
libs.extend(["onnxruntime_providers_vitisai.dll"])
# DirectML Libs
libs.extend(["DirectML.dll"])
# QNN V68/V73 dependencies
qnn_deps = [
"QnnCpu.dll",
"QnnHtp.dll",
"QnnSaver.dll",
"QnnSystem.dll",
"QnnHtpPrepare.dll",
"QnnHtpV73Stub.dll",
"libQnnHtpV73Skel.so",
"libqnnhtpv73.cat",
"QnnHtpV68Stub.dll",
"libQnnHtpV68Skel.so",
]
libs.extend(qnn_deps)
if nightly_build:
libs.extend(["onnxruntime_pywrapper.dll"])
if is_manylinux:
if is_openvino:
ov_libs = [
"libopenvino_intel_cpu_plugin.so",
"libopenvino_intel_gpu_plugin.so",
"libopenvino_auto_plugin.so",
"libopenvino_hetero_plugin.so",
"libtbb.so.2",
"libtbbmalloc.so.2",
"libopenvino.so",
"libopenvino_c.so",
"libopenvino_onnx_frontend.so",
]
for x in ov_libs:
y = "onnxruntime/capi/" + x
subprocess.run(
["patchelf", "--set-rpath", "$ORIGIN", y, "--force-rpath"],
check=True,
stdout=subprocess.PIPE,
text=True,
)
dl_libs.append(x)
dl_libs.append(providers_openvino)
dl_libs.append("plugins.xml")
dl_libs.append("usb-ma2x8x.mvcmd")
data = ["capi/libonnxruntime_pywrapper.so"] if nightly_build else []
data += [path.join("capi", x) for x in dl_libs if glob(path.join("onnxruntime", "capi", x))]
ext_modules = [
Extension(
"onnxruntime.capi.onnxruntime_pybind11_state",
["onnxruntime/capi/onnxruntime_pybind11_state_manylinux1.so"],
),
]
else:
data = [path.join("capi", x) for x in libs if glob(path.join("onnxruntime", "capi", x))]
ext_modules = []
# Additional examples
examples_names = ["mul_1.onnx", "logreg_iris.onnx", "sigmoid.onnx"]
examples = [path.join("datasets", x) for x in examples_names]
# Extra files such as EULA and ThirdPartyNotices (and Qualcomm License, only for QNN release packages)
extra = ["LICENSE", "ThirdPartyNotices.txt", "Privacy.md", "Qualcomm AI Hub Proprietary License.pdf"]
# Description
readme_file = "docs/python/ReadMeOV.rst" if is_openvino else "docs/python/README.rst"
README = path.join(getcwd(), readme_file)
if not path.exists(README):
this = path.dirname(__file__)
README = path.join(this, readme_file)
if not path.exists(README):
raise FileNotFoundError("Unable to find 'README.rst'")
with open(README, encoding="utf-8") as fdesc:
long_description = fdesc.read()
# Include files in onnxruntime/external if --enable_external_custom_op_schemas build.sh command
# line option is specified.
# If the options is not specified this following condition fails as onnxruntime/external folder is not created in the
# build flow under the build binary directory.
if path.isdir(path.join("onnxruntime", "external")):
# Gather all files under onnxruntime/external directory.
extra.extend(
list(
str(Path(*Path(x).parts[1:]))
for x in list(iglob(path.join(path.join("onnxruntime", "external"), "**/*.*"), recursive=True))
)
)
packages = [
"onnxruntime",
"onnxruntime.backend",
"onnxruntime.capi",
"onnxruntime.datasets",
"onnxruntime.tools",
"onnxruntime.tools.mobile_helpers",
"onnxruntime.tools.ort_format_model",
"onnxruntime.tools.ort_format_model.ort_flatbuffers_py",
"onnxruntime.tools.ort_format_model.ort_flatbuffers_py.fbs",
"onnxruntime.tools.qdq_helpers",
"onnxruntime.quantization",
"onnxruntime.quantization.operators",
"onnxruntime.quantization.CalTableFlatBuffers",
"onnxruntime.quantization.fusions",
"onnxruntime.quantization.execution_providers.qnn",
"onnxruntime.transformers",
"onnxruntime.transformers.models.bart",
"onnxruntime.transformers.models.bert",
"onnxruntime.transformers.models.gpt2",
"onnxruntime.transformers.models.llama",
"onnxruntime.transformers.models.longformer",
"onnxruntime.transformers.models.phi2",
"onnxruntime.transformers.models.t5",
"onnxruntime.transformers.models.stable_diffusion",
"onnxruntime.transformers.models.whisper",
]
package_data = {"onnxruntime.tools.mobile_helpers": ["*.md", "*.config"]}
data_files = []
requirements_file = "requirements.txt"
local_version = None
enable_training = parse_arg_remove_boolean(sys.argv, "--enable_training")
enable_training_apis = parse_arg_remove_boolean(sys.argv, "--enable_training_apis")
enable_rocm_profiling = parse_arg_remove_boolean(sys.argv, "--enable_rocm_profiling")
disable_auditwheel_repair = parse_arg_remove_boolean(sys.argv, "--disable_auditwheel_repair")
default_training_package_device = parse_arg_remove_boolean(sys.argv, "--default_training_package_device")
classifiers = [
"Development Status :: 5 - Production/Stable",
"Intended Audience :: Developers",
"License :: OSI Approved :: MIT License",
"Operating System :: POSIX :: Linux",
"Topic :: Scientific/Engineering",
"Topic :: Scientific/Engineering :: Mathematics",
"Topic :: Scientific/Engineering :: Artificial Intelligence",
"Topic :: Software Development",
"Topic :: Software Development :: Libraries",
"Topic :: Software Development :: Libraries :: Python Modules",
"Programming Language :: Python",
"Programming Language :: Python :: 3 :: Only",
"Programming Language :: Python :: 3.7",
"Programming Language :: Python :: 3.8",
"Programming Language :: Python :: 3.9",
"Programming Language :: Python :: 3.10",
"Programming Language :: Python :: 3.11",
"Programming Language :: Python :: 3.12",
"Operating System :: Microsoft :: Windows",
"Operating System :: MacOS",
]
if enable_training or enable_training_apis:
packages.append("onnxruntime.training")
if enable_training:
packages.extend(
[
"onnxruntime.training.amp",
"onnxruntime.training.experimental",
"onnxruntime.training.experimental.gradient_graph",
"onnxruntime.training.optim",
"onnxruntime.training.ortmodule",
"onnxruntime.training.ortmodule.experimental",
"onnxruntime.training.ortmodule.experimental.json_config",
"onnxruntime.training.ortmodule.experimental.hierarchical_ortmodule",
"onnxruntime.training.ortmodule.torch_cpp_extensions",
"onnxruntime.training.ortmodule.torch_cpp_extensions.cpu.aten_op_executor",
"onnxruntime.training.ortmodule.torch_cpp_extensions.cpu.torch_interop_utils",
"onnxruntime.training.ortmodule.torch_cpp_extensions.cuda.torch_gpu_allocator",
"onnxruntime.training.ortmodule.torch_cpp_extensions.cuda.fused_ops",
"onnxruntime.training.ortmodule.graph_optimizers",
"onnxruntime.training.ortmodule.experimental.pipe",
"onnxruntime.training.ort_triton",
"onnxruntime.training.ort_triton.kernel",
"onnxruntime.training.utils",
"onnxruntime.training.utils.data",
"onnxruntime.training.utils.hooks",
"onnxruntime.training.api",
"onnxruntime.training.onnxblock",
"onnxruntime.training.onnxblock.loss",
"onnxruntime.training.onnxblock.optim",
]
)
package_data["onnxruntime.training.ortmodule.torch_cpp_extensions.cpu.aten_op_executor"] = ["*.cc"]
package_data["onnxruntime.training.ortmodule.torch_cpp_extensions.cpu.torch_interop_utils"] = ["*.cc", "*.h"]
package_data["onnxruntime.training.ortmodule.torch_cpp_extensions.cuda.torch_gpu_allocator"] = ["*.cc"]
package_data["onnxruntime.training.ortmodule.torch_cpp_extensions.cuda.fused_ops"] = [
"*.cpp",
"*.cu",
"*.cuh",
"*.h",
]
requirements_file = "requirements-training.txt"
# with training, we want to follow this naming convention:
# stable:
# onnxruntime-training-1.7.0+cu111-cp36-cp36m-linux_x86_64.whl
# nightly:
# onnxruntime-training-1.7.0.dev20210408+cu111-cp36-cp36m-linux_x86_64.whl
# this is needed immediately by pytorch/ort so that the user is able to
# install an onnxruntime training package with matching torch cuda version.
if not is_openvino:
# To support the package consisting of both openvino and training modules part of it
package_name = "onnxruntime-training"
disable_local_version = environ.get("ORT_DISABLE_PYTHON_PACKAGE_LOCAL_VERSION", "0")
disable_local_version = (
disable_local_version == "1"
or disable_local_version.lower() == "true"
or disable_local_version.lower() == "yes"
)
# local version should be disabled for internal feeds.
if not disable_local_version:
# we want put default training packages to pypi. pypi does not accept package with a local version.
if not default_training_package_device or nightly_build:
if cuda_version:
# removing '.' to make Cuda version number in the same form as Pytorch.
local_version = "+cu" + cuda_version.replace(".", "")
elif rocm_version:
# removing '.' to make Rocm version number in the same form as Pytorch.
local_version = "+rocm" + rocm_version.replace(".", "")
else:
# cpu version for documentation
local_version = "+cpu"
else:
if not (cuda_version or rocm_version):
# Training CPU package for ADO feeds is called onnxruntime-training-cpu
package_name = "onnxruntime-training-cpu"
if rocm_version:
# Training ROCM package for ADO feeds is called onnxruntime-training-rocm
package_name = "onnxruntime-training-rocm"
if package_name == "onnxruntime-tvm":
packages += ["onnxruntime.providers.tvm"]
package_data["onnxruntime"] = data + examples + extra
version_number = ""
with open("VERSION_NUMBER") as f:
version_number = f.readline().strip()
if nightly_build:
# https://docs.microsoft.com/en-us/azure/devops/pipelines/build/variables
build_suffix = environ.get("BUILD_BUILDNUMBER")
if build_suffix is None:
# The following line is only for local testing
build_suffix = str(datetime.datetime.now().date().strftime("%Y%m%d"))
else:
build_suffix = build_suffix.replace(".", "")
if len(build_suffix) > 8 and len(build_suffix) < 12:
# we want to format the build_suffix to avoid (the 12th run on 20210630 vs the first run on 20210701):
# 2021063012 > 202107011
# in above 2021063012 is treated as the latest which is incorrect.
# we want to convert the format to:
# 20210630012 < 20210701001
# where the first 8 digits are date. the last 3 digits are run count.
# as long as there are less than 1000 runs per day, we will not have the problem.
# to test this code locally, run:
# NIGHTLY_BUILD=1 BUILD_BUILDNUMBER=202107011 python tools/ci_build/build.py --config RelWithDebInfo \
# --enable_training --use_cuda --cuda_home /usr/local/cuda --cudnn_home /usr/lib/x86_64-linux-gnu/ \
# --nccl_home /usr/lib/x86_64-linux-gnu/ --build_dir build/Linux --build --build_wheel --skip_tests \
# --cuda_version 11.1
def check_date_format(date_str):
try:
datetime.datetime.strptime(date_str, "%Y%m%d")
return True
except Exception:
return False
def reformat_run_count(count_str):
try:
count = int(count_str)
if count >= 0 and count < 1000:
return f"{count:03}"
elif count >= 1000:
raise RuntimeError(f"Too many builds for the same day: {count}")
return ""
except Exception:
return ""
build_suffix_is_date_format = check_date_format(build_suffix[:8])
build_suffix_run_count = reformat_run_count(build_suffix[8:])
if build_suffix_is_date_format and build_suffix_run_count:
build_suffix = build_suffix[:8] + build_suffix_run_count
elif len(build_suffix) >= 12:
raise RuntimeError(f'Incorrect build suffix: "{build_suffix}"')
if enable_training:
from packaging import version
from packaging.version import Version
# with training package, we need to bump up version minor number so that
# nightly releases take precedence over the latest release when --pre is used during pip install.
# eventually this shall be the behavior of all onnxruntime releases.
# alternatively we may bump up version number right after every release.
ort_version = version.parse(version_number)
if isinstance(ort_version, Version):
# TODO: this is the last time we have to do this!!!
# We shall bump up release number right after release cut.
if ort_version.major == 1 and ort_version.minor == 8 and ort_version.micro == 0:
version_number = f"{ort_version.major}.{ort_version.minor + 1}.{ort_version.micro}"
version_number = version_number + ".dev" + build_suffix
if local_version:
version_number = version_number + local_version
if is_rocm and enable_rocm_profiling:
version_number = version_number + ".profiling"
if wheel_name_suffix:
if not (enable_training and wheel_name_suffix == "gpu"):
# for training packages, local version is used to indicate device types
package_name = f"{package_name}-{wheel_name_suffix}"
cmd_classes = {}
if bdist_wheel is not None:
cmd_classes["bdist_wheel"] = bdist_wheel
cmd_classes["install"] = InstallCommand
cmd_classes["build_ext"] = build_ext
requirements_path = path.join(getcwd(), requirements_file)
if not path.exists(requirements_path):
this = path.dirname(__file__)
requirements_path = path.join(this, requirements_file)
if not path.exists(requirements_path):
raise FileNotFoundError("Unable to find " + requirements_file)
with open(requirements_path) as f:
install_requires = f.read().splitlines()
if enable_training:
def save_build_and_package_info(package_name, version_number, cuda_version, rocm_version):
sys.path.append(path.join(path.dirname(__file__), "onnxruntime", "python"))
from onnxruntime_collect_build_info import find_cudart_versions
version_path = path.join("onnxruntime", "capi", "build_and_package_info.py")
with open(version_path, "w") as f:
f.write(f"package_name = '{package_name}'\n")
f.write(f"__version__ = '{version_number}'\n")
if cuda_version:
f.write(f"cuda_version = '{cuda_version}'\n")
# cudart_versions are integers
cudart_versions = find_cudart_versions(build_env=True)
if cudart_versions and len(cudart_versions) == 1:
f.write(f"cudart_version = {cudart_versions[0]}\n")
else:
print(
"Error getting cudart version. ",
(
"did not find any cudart library"
if not cudart_versions or len(cudart_versions) == 0
else "found multiple cudart libraries"
),
)
elif rocm_version:
f.write(f"rocm_version = '{rocm_version}'\n")
save_build_and_package_info(package_name, version_number, cuda_version, rocm_version)
# Setup
setup(
name=package_name,
version=version_number,
description="ONNX Runtime is a runtime accelerator for Machine Learning models",
long_description=long_description,
author="Microsoft Corporation",
author_email="[email protected]",
cmdclass=cmd_classes,
license="MIT License",
packages=packages,
ext_modules=ext_modules,
package_data=package_data,
url="https://onnxruntime.ai",
download_url="https://github.com/microsoft/onnxruntime/tags",
data_files=data_files,
install_requires=install_requires,
keywords="onnx machine learning",
entry_points={
"console_scripts": [
"onnxruntime_test = onnxruntime.tools.onnxruntime_test:main",
]
},
classifiers=classifiers,
)